Re-Inventing The Wheel-Part1-Clemente_Figuera-THE INFINITE ENERGY MACHINE

znel · June 14, 2023, 01:32:07 PM

Quote from: floodrod on June 14, 2023, 07:20:02 AM
On every single patent, it shows the 2nd series electromagnet array entering the first coil on the opposite side of the first electromagnet. But only on 1 side.. The other side enters and exits each electromagnet on the same side.

I have pondered this for weeks.. Why wouldn't they draw the positive feed where my red line is to match the first array?

Is it possible the first side is all North (N,N,N,N,N,N,N)
And the 2nd side is one South followed by all North (S,N,N, N,N,N,N)

I can't think of any other reason for this, and I do not think it's a slipup that coincidently happened on every patent.

Is there a simple explanation I am missing?

pulsed dc output

nix85 · June 14, 2023, 01:43:15 PM

As i said no generator or transformer including Figuera produces pulsating DC. Only way to produce DC would be to increase flux continuously to infinity (or decrease it from infinitely large flux toward 0). That is of course impossible.

We are obviously not talking diodes or some other method of rectifying the output. Induction itself is always AC. Unless we get into scalar waves and higher energy forms, Schwartz for example says his ERR box is producing DC with small AC component), but that is totally different pair of shoes.

znel · June 14, 2023, 01:50:39 PM

Quote from: nix85 on June 14, 2023, 01:43:15 PM
As i said no generator or transformer including Figuera produces pulsating DC. Only way to produce DC would be to increase flux continuously to infinity (or decrease it from infinitely large flux toward 0). That is of course impossible.

We are obviously not talking diodes or some other method of rectifying the output. Induction itself is always AC. Unless we get into scalar waves and higher energy forms, Schwartz for example says his ERR box is producing DC with small AC component), but that is totally different pair of shoes.

be that as it may, the above produces a good pulsed dc output.

nix85 · June 14, 2023, 02:19:42 PM

Quote from: znel on June 14, 2023, 01:50:39 PM
be that as it may, the above produces a good pulsed dc output.

It does not. It is unclear what exactly have you imagined in the diagram, it seems flawed polarity wise, i have seen many similar Figuera suggestions over the years. But it does not really matter.

ALL induction configurations produce AC.

Coil will produce voltage of one polarity while it sees increase of flux in certain direction.

As long as flux in that direction keeps increasing voltage of that polarity will be induced, if it is increasing at constant rate flat DC voltage will be induced.

If the rate of increase is changing pulsed DC will result.

But the very moment that flux stops increasing there will be no more induced voltage.

And if that flux starts to decrease voltage of opposite polarity will be induced in same manner.

So, as i said, unless flux in one direction is increasing to infinity, which is of course impossible, you cannot get pulsed DC by induction, not in the generator not in the transformer.

Feeding transformer a pulsed DC results in AC, etc.

You may get almost pure pulsed DC by shoving magnet into the coil very fast and then pulling it back very slowly so opposite polarity voltage would be very small. But that is still AC.

znel · June 14, 2023, 03:00:03 PM

Quote from: nix85 on June 14, 2023, 02:19:42 PM
It does not. It is unclear what exactly have you imagined in the diagram, it seems flawed polarity wise, i have seen many similar Figuera suggestions over the years. But it does not really matter.

ALL induction configurations produce AC.

Coil will produce voltage of one polarity while it sees increase of flux in certain direction.

As long as flux in that direction keeps increasing voltage of that polarity will be induced, if it is increasing at constant rate flat DC voltage will be induced.

If the rate of increase is changing pulsed DC will result.

But the very moment that flux stops increasing there will be no more induced voltage.

And if that flux starts to decrease voltage of opposite polarity will be induced in same manner.

So, as i said, unless flux in one direction is increasing to infinity, which is of course impossible, you cannot get pulsed DC by induction, not in the generator not in the transformer.

Feeding transformer a pulsed DC results in AC, etc.

You may get almost pure pulsed DC by shoving magnet into the coil very fast and then pulling it back very slowly so opposite polarity voltage would be very small. But that is still AC.

I understand what your saying in general and you are correct, however, the diagram shows a pulsed dc input on each side of the induced coil. This results in a single polarity output - no reversal - simply a rise and fall of flux through the coil.

Another example of this would be a long solenoid coil with lots of wire, with one pole of a magnet you start at one end of the coil and move the magnet toward the other end, you'll see a continuous current of one polarity until you reach the end. Simply repeat this sequence over and over to produce a pulsed output of a certain polarity.