Garry 2 flat coils motor tests by Ron Pugh

Garry 2 flat coils motor tests by Ron Pugh
Starting with a Garry quote... *When you are winding your coil (only for 2 rotor motors) divide it in half and wind one half in one direction and the other half in the opposite direction.* *Both halves are now wired in parallel, so that any current flowing in one, is negated by the current flowing in the other.* *This not only cancels Lenz in the motor, but also means you can power both ends of the coil, just as you would have if it was all wound as one single winding, all going in the same direction. Garry later changed the above to "coils wound the same hand with one turned over and wired backwards"

First picture below is my 'overall setup'. Two floppy coils on a stick with start wires against the stick (back to back, one coil turned over as per Garry's) the stick is mounted on a ball bearing pivot and counter balanced so as to just rest against the stop pin at "0" The wires from the coils are brought out to the four terminal strip. The two start of the winding wires are in the center and the two finish wires on on the two outside terminals. Clear?, normally then, to make it work after you turn one coil over you reverse the connections to that coil, so, F of the first coil to S of the second coil and S, coil 1 to F, coil 2..... as in picture 'both coils, generator'.

Ron Pugh overall setup


2nd picture below is with the coils wired wrong,(backwards) the two S's are wired together and the two F's are wired together. No external voltage is produced and full lenz drag is present (10)

Ron Pugh wired backwards


3rd pic below is 'one coil shorted', note the reading of '5'

Ron Pugh one shorted


4th pic below is 'both coils shorted', note reading of '10'

Ron Pugh both shorted


5th pic below is 'one coil generator' shown outputting .4 volts AC

Ron Pugh one generator coil


6th pic is 'both coils generating' showing that the coils are in parallel and generating .4 volts and because there is no load on the coils there is '0' reading for lenz drag

Ron Pugh both generating coils


7th Above pic is with both coils connected to generate but with a short placed across the terminals, note that lenz reads '10' when so connected.

Ron Pugh both generating coils shorted


Conclusions: Driving the two hard drive neo's with a 24 volt DC, CW motor showed the following: * *that wired as per Garry's instructions there is no drag, only as long as you do not short the windings or attempt to draw power from the coils.

that no combination of connections gives any reduction of lenz !!!! that both coils (wired unturned over) gives excately the same results as above

Note: The above test shows the induced voltage on the coil when used in the generator mode and the reaction of that coil due to the drag of lenz. (10 equals full drag)

"Garry's idea of using one coil with a magnet on each end is great. You pay once and get 2 times the results of classic one coil one magnet motors". But Garry's two two coil setup, as shown in the experiment above, does not reduce Lenz.

All the best, Ron

First cudos and much thanks to Ron for his nice testing.

Notes from Norman Wiring the air coils in parallel simply allows for more current to compensate for the flat air coils that clearly are inferior magnets.

If you only turned the coil around and did not change the wires then there would be like fields between the coils and no motor action forces of any kind would exist.

Garry's idea of using one coil with a magnet on each end is great. You pay once and get 2 times the results of classic one coil one magnet motors.

"For my pendulum work on Garry's 2 flag coils motor click here."