Partnered Output Coils - Free Energy

[EMJunkie]

That depends on the secondary field due to loading. The secondary produces an opposing field to the primary.

If we wound a 1 to 1 ratio primary and secondary windings, say on opposite sides of the core. pri on the left and secondary on the right, with space between the ends of the windings at the top and bottom, and we simply short out the secondary, when we apply the ac input to the primary, you will be able to detect N at the top of the core and S at the bottom of the core, and opposite in the other phase. So loading the sec opposing the primary field heavily completely disrupts the cores ability to have max flux loops through the circle of the core. If it were an 'ideal' situation, AC input to the primary with the secondary shorted, the core should basically act like an AC electro magnet, alternating N and S at the top and bottom open areas of the core.  And also that N and S leakage can happen in the hole of the core from the top open area between the windings and the bottom. Probably more likely the preferred path as it is the shortest distance.

Now wind the sec first all the way around 1 layer. Then wind the primary around 1 layer on top of the sec.  When we add input to the primary there will be continuous loops of flux in the core. But when we say short the secondary, we have an opposing field developed. Will that not reduce the amount of flux in the core as a whole?? So the max flux in that core is when the sec is not loaded. Loading the secondary makes the core less visible to the primary.

Thats why reducing the inductance of the primary and increased current flows through it, happens when we load the secondary. Loading the secondary reduces the amount of core attraction available to the primary. No core, higher inductance.

Didnt understand that till yesterday, and been thinking about it for a long time. 



Mags

Hi Mags,


Core permeability is something that is often dismissed or not thought about. Say we have an average Core with a permeability of 1000. That means the Magnetic Flux will find it 1000 times easier to travel, than it does in Free Space.

Of course, as the primary see's a higher and higher reluctance due to the restriction of the path, lower permeability, then we will see some leakage. This will have to be very large magnetic fields however!



One of the Core Design characteristics when designing Transformers is selecting a Core Material and Size, thus, that it will not allow the fore mentioned effects to occur!


Why? Because this drastically lowers the Efficiency! Thats why the guys here and else where say that "Leakage Inductance" or "Leakage Flux" is bad!

And for the most part, it does, and is a bad thing. Not always however!

Core permeabilitys can range drastically: 1 (Free Space) up to 600,000 (Magnetic Alloy) - I dont know of anything higher than this as yet.

This is really a massive number, massive magnetic Fields would be required for this material, to create issues that we are talking about. It is very easy to see in practice, that a very low Leakage Flux is present on the outside of an operating Conventional Transformer! An Electric Field can however be detected!

Most Transformers are going to have 1% or less Leakage Flux, on the big expensive ones, maybe 0.05%. This is the whole idea of Transformers!


   Chris Sykes
       hyiq.org

[EMJunkie]

Mags is thinking correctly about the fields however! The Primary Magnetic Field is opposed by the Secondary Magnetic Field!
Partnered Output Coils also do the same thing!

In this example I am going share there are four fields all at the same time!

1: The Primary Magnetic Field.
2: The Secondary Magnetic Field.
3: Partnered Output Coil 1 Magnetic Field.
4: Partnered Output Coil 2 Magnetic Field.

Each Magnetic Field is opposed by the Field that created it! Lenz's Law! Again, Lenz's Law is the negative sign in the Electromagnetic Induction Equation: emf = -N dPhi/dt

   Chris Sykes
       hyiq.org

[EMJunkie]

We know for sure that one Magnetic Field does effect another, there are interactions between them!


Lenz Law tells us this!


So, if Lenz's Law is the negative effect of Electromagnetic Induction, then it only makes sense to introduce another Magnetic Field to offset the Negative effects of Lenz's Law!



   Chris Sykes
       hyiq.org

[EMJunkie]

I think its really important to reiterate this point. I have said a few times now:

Remember, in this technology, this process can ONLY work, if Current is flowing in the Partnered Output Coils.



Ref: Guidelines to Bucking Coils

I wasnt going to go down this path, I wasnt going to show too much. I think it is very important that people do part of the work themselves!

Some of my very early videos I have not published, for many reasons!

In this Video, Here: --->>>   Partnered Output Coils - Why it's Important to have Current Flowing!   <<<---    - is a demonstration of WHY it is important to get the Current Flowing in the Partnered Output Coils!!!


It is important to look for these effects! These effects lead to Over Unity!!!


   Chris Sykes
       hyiq.org

[EMJunkie]

Having some trouble uploading the above video to YouTube - Please be patient... Keep trying...


Also:

Note: Importantly, for this device to work, Current must be flowing in the Partnered Output Coils!

   Chris Sykes
       hyiq.org