Partnered Output Coils - Free Energy

[wistiti]

Interesting test Lostfox!
Im curious what will happen if the voltage is higher at the primary... do the output will follow the same curve or it will be exponencial...??

[itsu]

Hey lostfox, am really happy your are in with us too!!!
Really a nice clean build. Is in it strange and really interesting the fact that when fully load (short) at the output the input power is low!!! I think, just for that, this poc is a must. Im curious if the short secondary consume more power than the input...? Thank you for your great work!


Itsu, i also see than the result is not the same when using different load... There must have a kind of balancing to find...

After 2 days of finding the correct balans i give up, no better result then 80%.

I will wait for you guys to present better results, input/output/efficiency.

Regards Itsu

[wistiti]

Hey Itsu, hope you will be back soon...
Thank you to have sharing your results with us.

[kEhYo77]

Two opposing primaries and two opposing secondaries with space between coils.

It is contained in a box B (Fig. 3) of thick boards of hard wood, covered on the outside with zinc sheet Z, which is carefully soldered all around. It might be advisable, in a strictly scientific investigation, when accuracy is of great importance, to do away with the metal cover, as it might introduce many errors, principally on account of its complex action upon the coil, as a condenser of very small capacity and as an electrostatic and electromagnetic screen. When the coil is used for such experiments as are here contemplated, the employment of the metal cover offers some practical advantages, but these are not of sufficient importance to be dwelt upon.

The coil should be placed symmetrically to the metal cover, and the space between should, of course, not be too small, certainly not less than, say, five centimeters, but much more if possible; especially the two sides of the zinc box, which are at right angles to the axis of the coil, should be sufficiently remote from the latter, as otherwise they might impair its action and be a source of loss.

The coil consists of two spools of hard rubber R R, held apart at a distance of 10 centimeters by bolts c and nuts n, likewise of hard rubber. Each spool comprises a tube T of approximately 8 centimeters inside diameter, and 3 millimeters thick, upon which are screwed two flanges F F, 24 centimeters square, the space between the flanges being about 3 centimeters. The secondary, S S, of the best gutta-percha covered wire, has 26 layers, 10 turns in each, giving for each half a total of 260 turns.[/size]

The two halves are wound oppositely and connected in series, the connection between both being made over the primary. This disposition, besides being convenient, has the advantage that when the coil is well balanced—that is, when both of its terminals T1 T1 are connected to bodies or devices of equal capacity—there is not much danger of breaking through to the primary, and the insulation between the primary and the secondary need not be thick.[/size]

In using the coil it is advisable to attach to both terminals devices of nearly equal capacity, as, when the capacity of the terminals is not equal, sparks will be apt to pass to the primary. To avoid this, the middle point of the secondary may be connected to the primary, but this is not always practicable.[/size]

The primary P P is wound in two parts, and oppositely, upon a wooden spool W, and the four ends are led out of the oil through hard rubber tubes t t. The ends of the secondary T1 T1 are also led out of the oil through rubber tubes t1 t1 of great thickness. The primary and secondary layers are insulated by cotton cloth, the thickness of the insulation, of course, bearing some proportion to the difference of potential between the turns of the different layers. Each half of the primary has four layers, 24 turns in each, this giving a total of 96 turns.[/size]

When both the parts are connected in series, this gives a ratio of conversion of about 1:2.7, and with the primaries in multiple, 1:5.4; but in operating with very rapidly alternating currents this ratio does not convey even an approximate idea of the ratio of the E.M.Fs. in the primary and secondary circuits. The coil is held in position in the oil on wooden supports, there being about 5 centimeters thickness of oil all round. Where the oil is not specially needed, the space is filled with pieces of wood, and for this purpose principally the wooden box B surrounding the whole is used. [/size]

It is very similar of what you are doing, guys.


SOURCE

[Utopia Now]

Also in this book .
Page 207, 208 from the book,  page 230, 231  from the pdf
http://www.tuks.nl/pdf/Reference_Material/Tesla/The_inventions_researches_and_writing_of_Nikola_Tesla.pdf