Basic Structure of the SEG

An SEG consists of a series of three rings and rollers that go around those rings. The first ring contains twelve rollers, this amount is the same as having a twelve-cycle or twelve-phase linear motor. A linear motor will not operate on less than twelve phases. There are many other correlations you can make, but this is working along with the laws of Nature. There are twelve plates on the surface of the earth, and twelve months of the year. There can be more than twelve rollers, but no less.

Figure 1 is an illustration of what an SEG would look like. It shows what we hope our final outcome will be to make one. You notice that there are three rows as you go out. There are not the same number of rollers for each ring . It goes up by approximately 10 rollers for each ring.

All of the construction details are based on the Law of the Squares. Looking at a cutaway section of a ring of rollers, we see that this SEG is made using the square of four. The rollers revolve around the plates that form the rings, but they do not touch them. The close-up of the roller in Figure 2 shows a center website element and then three other elements going out from the central core of each roller. The plates will have the same center element on the inner side and the lightest element on the outside.

Figure 3 is a drawing of the elements going from the outside layer to the inside layer. It shows dimensions and you’ll notice that one of the elements is nylon. Nylon 66 is the element Prof. Searl chose to use and he used it because it has a high negative content and it also has a double bond configuration. The nylon is used as a semi-conductor in a diode.

What you have basically is a solid state device here. Figure 4. The electrons are given off from the center element (which is neodymium), and they travel out through the other elements. If the nylon had not been put there, the SEG would act like a laser and one pulse would go out and it would stop, build up, and another pulse would go out. But, with the nylon in there, the nylon acts as a control gate, and that control gate gives you an even flow of electrons throughout the SEG.

Brushes for electron pickups are found on the outside edges of SEGs designated for use in the Inverse-G vehicles. Figure 5. A set of conventional C-shaped transformers would ordinarily collect the energy for use. The Inverse-G vehicle units are made a little bit different than a conventional generator in that instead of supplying 240 volts for Europe or 130 for the United States, it puts out hundreds of millions of volts. In order to transfer that energy to a usable place on the craft, and to direct it they pick it up with brushes. These brushes are positioned all around the out side.

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