Hey Bird_eye,
Would be so much nicer to see your work, and not some videos by someone that's not even a member of this forum.
Aaron does not show you anything of value in these videos!
What Aaron has shown you, is about One tenth of the total solution, the solution which I have already shown you %100 here:
Partnered Output Coils represent the Electrical "Generators" Rotor and Stator, each "Generating" the Partners Voltage and Pumping Current.
I am sorry to say, all though there are some similarities, those two videos you posted, really do not help any one! They are very good at leading people down Garden Paths, that have a dead end!
I don't agree with what Aaron has done, selling a whole bunch of videos, that people have paid good money for, in my opinion, not one has any reasonable answers! I have no problem with Aaron, in my opinion, he has only ever done good and tried to help others that have an interest in the Energy Field!
Anyway, enough of that...
Voltage is Generated, via Faradays Law, and Current is Pumped, via Opposing Magnetomotive Force, and the incorporation of Asymmetrical Forces, is where you can achieve Above Unity Gains, if one learns how to Break Symmetry in what is entirely a Symmetrical Field today!
For example, if you look at the Conventional Transformer, the total Energy Output, is equivalent to the Total Energy Input minus the Losses. There is no Open Door for extra Energy to Enter the System!
To FIX this issue, we need to have a configuration where the Output Energy is NOT dependent on the Input Energy, the Output Energy is dependent on the System Design. I have shown you how to do this with a very detailed explanation here: Non-Inductive Coil Experiment
Symmetry Representation: M.M.FPrimary + M.M.FSecondary = Zero
Asymmetry Representation: M.M.FPrimary + M.M.FSecondary + M.M.FTertiary = M.M.FTertiary.
Anyone can do this! Anyone! Already we have had many successes! Like anything Worldly, Scale and Design is important.
What I have shared with you all, it is the beginning, there is MUCH More!
Best Wishes,
Chris