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Originally posted by Les_K
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Ok, I think this really applies here. the reason is, it incorporates the things that were discussed by the originators of this list anyway.
There are two parts we have been taught about getting OU from the SSG. one is
voltage, but raising the voltage will do little for you unless you have solved
the other part. The other part is the gradiant or as I call it the slew rate.
The speed at which the voltage goes from 0 volts to 36 (or 12 or what ever your
input voltage is).
There is one more factor I have discovered that we have been told.
It is subtle, but it is, I think the most important.
*** how long can the core hold back current while the potential is at it's peak
value*** This is the key to large OU! It is the BIG and final question! this is
why the MagAmp was so heavily discussed here early on. This is what I would call the
differential. This one is the one to think heavily about. This is what makes it
all happen.
Much of this was discussed here when we started to look at the 3GT coils and realised that the center coil had different sized wire. the SSG has different sized wire one for the trigger and one for the output, but both were interacting. I built a pulser page 46 if you have the book. but I added several extra strands to play with. What I discovered was that any one strand would take almost all the power from the coil. having extra strands did not work by giving you more overall power(this is different with the slave circuit as Kron has an important role in the slave circuit). Also when there was not a load on the output the input or base wire took the hit. this interaction got me to thinking a lot about this.
Next when I saw the coils on the Ferris Wheel I began to see what JB has been talking about with differentials. It seems that when you have two wires in parallel where current flows at different rates across them there is a differential between them. this differential seems to fight with the lenz law all over the place(eddy currents as well). this seems to have the effect of not only grinding lenz law to a halt but to do it by slowing current down in the circuit. The entropic effect is not to dissipate energy as heat but to transfer it to something useful in the system in this case. But then since you have the current slowed as it is, you get the radiant filling in all the gaps. Now as complex as this gets, this is only one interaction in the coil. and there are many that are interacting together with this system.
In an ssg the purpose is different and the energy gained in the system is to be transferred through the Diode and into a battery. but in the BFW something else seems to be happening. we are looking at applying this energy to the core itself. What I see happening here is that the energy is built up and exhausts itself into the core and in conjunction with it's created emp and the magnetic flux like we were talking about patrick, and critical timing (my head begins to spin here because we are talking about the effects of curled space time, gravity, lay lines, moon phases.... etc. etc. and I just can't comprehend all that) a scaler is then output from the core itself towards the center of the rotating wheel. This is one of many reasons there is a difference in using litzed vs non litzed. and why when using the non litzed the Bipolar is the better circuit. Anyway with all that said I don't know what to do with the scaler waves. If I knew how to match the system I could set up an antennae and run my house or something.
Now we see that the BFW is very very complex. But I wanted to keep it simple and as I began to ask those questions I realised I had to start my education all over again. Ok so where do I start. the core itself. what makes the things happen in the core. Yes all the stuff about radus boots and mag amps, but the basics.
To me the core has a few component actions. one; to transfer magnetic flux from the magnet to the windings around the core material. two; to hold a magnetic charge and dissipate that magnetic charge. And how efficiently that is done. what this means is called Remanence flux and Coercivity. The remanance flux is the polarized flux remaining in the core after the excitation has been removed. the magnetising force is called coercivity. and is the amount of magnetizing force needed to bring the remanence flux density back to zero. If we can use a material and magnetic flux density at the right level with the core material then we can reduce this counteractive effort to almost zero. But remember there is an emp created that can also leave remanence.
At this point efficiency is all I am talking about here but that is important before moving on.
Ok this is a lot of material for one post. So I am going to end here for now.
Even so, this is just an outline to get started.
Les
There are two parts we have been taught about getting OU from the SSG. one is
voltage, but raising the voltage will do little for you unless you have solved
the other part. The other part is the gradiant or as I call it the slew rate.
The speed at which the voltage goes from 0 volts to 36 (or 12 or what ever your
input voltage is).
There is one more factor I have discovered that we have been told.
It is subtle, but it is, I think the most important.
*** how long can the core hold back current while the potential is at it's peak
value*** This is the key to large OU! It is the BIG and final question! this is
why the MagAmp was so heavily discussed here early on. This is what I would call the
differential. This one is the one to think heavily about. This is what makes it
all happen.
Much of this was discussed here when we started to look at the 3GT coils and realised that the center coil had different sized wire. the SSG has different sized wire one for the trigger and one for the output, but both were interacting. I built a pulser page 46 if you have the book. but I added several extra strands to play with. What I discovered was that any one strand would take almost all the power from the coil. having extra strands did not work by giving you more overall power(this is different with the slave circuit as Kron has an important role in the slave circuit). Also when there was not a load on the output the input or base wire took the hit. this interaction got me to thinking a lot about this.
Next when I saw the coils on the Ferris Wheel I began to see what JB has been talking about with differentials. It seems that when you have two wires in parallel where current flows at different rates across them there is a differential between them. this differential seems to fight with the lenz law all over the place(eddy currents as well). this seems to have the effect of not only grinding lenz law to a halt but to do it by slowing current down in the circuit. The entropic effect is not to dissipate energy as heat but to transfer it to something useful in the system in this case. But then since you have the current slowed as it is, you get the radiant filling in all the gaps. Now as complex as this gets, this is only one interaction in the coil. and there are many that are interacting together with this system.
In an ssg the purpose is different and the energy gained in the system is to be transferred through the Diode and into a battery. but in the BFW something else seems to be happening. we are looking at applying this energy to the core itself. What I see happening here is that the energy is built up and exhausts itself into the core and in conjunction with it's created emp and the magnetic flux like we were talking about patrick, and critical timing (my head begins to spin here because we are talking about the effects of curled space time, gravity, lay lines, moon phases.... etc. etc. and I just can't comprehend all that) a scaler is then output from the core itself towards the center of the rotating wheel. This is one of many reasons there is a difference in using litzed vs non litzed. and why when using the non litzed the Bipolar is the better circuit. Anyway with all that said I don't know what to do with the scaler waves. If I knew how to match the system I could set up an antennae and run my house or something.
Now we see that the BFW is very very complex. But I wanted to keep it simple and as I began to ask those questions I realised I had to start my education all over again. Ok so where do I start. the core itself. what makes the things happen in the core. Yes all the stuff about radus boots and mag amps, but the basics.
To me the core has a few component actions. one; to transfer magnetic flux from the magnet to the windings around the core material. two; to hold a magnetic charge and dissipate that magnetic charge. And how efficiently that is done. what this means is called Remanence flux and Coercivity. The remanance flux is the polarized flux remaining in the core after the excitation has been removed. the magnetising force is called coercivity. and is the amount of magnetizing force needed to bring the remanence flux density back to zero. If we can use a material and magnetic flux density at the right level with the core material then we can reduce this counteractive effort to almost zero. But remember there is an emp created that can also leave remanence.
At this point efficiency is all I am talking about here but that is important before moving on.
Ok this is a lot of material for one post. So I am going to end here for now.
Even so, this is just an outline to get started.
Les
I didnt realize this had already been discussed in depth, Ill check it out.
Thanks!
in the sample on this web site a magnet can be used to control the flow of current; or a small bias current can do the same thing. Thinking along these lines by adding a iron wire to the core that is in parallel with the other two copper wires adds a magamp effect because the rotation of the magnetic field around the Iron wire is counter to that of the copper(remember; I said that when John Bedini talked about this he noticed the different poles with the same windings etc.). Thus since both are pulsed at the same time it is a matter of adjusting the duration of the pulse to match the cores impedance, but current is way behind voltage just as I said in my earlier post, which is well founded in beardens comments and discussions.
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