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Hi all,
I am currently working on an article in which I intended to describe the electret effect I think explains Bedini's batteries as well as Stan Meyers WFC. While doing that, I think I also understand how Gray's system must work:
Article:The Electret Effect - PESWiki
Then I realised that also when using a normal capacitor, no charge can actually flow trough the capacitor. So, it may be that Grays's tube in essence is nothing but a capacitor. The rods in the centre as capacatively coupled to the grid. However, because of the significant distance between the "plates" you have a very small capacitance. So, if you want to send anything like a signal over to the other side, you will need to use very high voltages and sharp pulses.
But the basic principle for getting free energy is to avoid killing the dipole. As I explain in my article, it is possible to manipulate the electric field for free, so if you can find a way to couple the driving circuit to the circuit that you want to drive by means of only the electric field, you can use the energy from the electric field for free. And that basically means that you don't want to have any charge carriers being exchanged between the driving circuit and the load circuit. And since no charge can flow trough a capacitor, you can do that in principle using a capacitor.
Adding one and one together, it should be possible to drive a (almost) "half open" coil into resonance by driving it from the side where there is high voltage, but no current, by a simple (small) capacitor that should not be an electrolytic capacitor, and feed that with sharp pulses, since these are easily transmitted trough a capacitor. A Bedini kind of coil driving circuit should deliver you just the kind of driving signal you need: a spike, with a sharp rise at the front.
However, at the other side of the coil, there is zero voltage, but high current. In other words: at the other side of the coil we need to have charge carriers available. That is why we have to connect that end of the coil to earth. Plenty of charge carriers there!
And then suddenly it also becomes clear why Tesla's single wire transmission is so interesting. Because if you have the primaries of multiple transformers resonating at their natural resonance frequency, all it takes to extract free energy from the electric field is to connect the "cold" side of these resonators (there where no current flows) to one another....
So, I'm going to experiment with this when I have some time. See the attached schematic. Feel free to do with this whatever you want.
I am currently working on an article in which I intended to describe the electret effect I think explains Bedini's batteries as well as Stan Meyers WFC. While doing that, I think I also understand how Gray's system must work:
Article:The Electret Effect - PESWiki
Normally, when you drive a half open coil at its natural resonance frequency, such as in a transmitter, you connect one side of the coil to ground and that is the side you drive. This is what Dr. Stiffler does, for example. With this technique, you make a tap in the coil somewhere at about 25% of the coil and at exactly the right time, you pull that tap trough a transistor up to the positive of your power supply. That way you basically steer a current trough the coil, you move the charge carriers around. On the other, open, side of the coil obviously no current flows and as you can see from Dr. Stifflers experiments, there is high voltage at that side of the coil.
Now let's get that straight. When you drive a half open coil at its natural resonance frequency, at one side of the coil you have zero voltage and high current, while at the other side you have zero current, but high voltage. Now this is obviously interesting, since we already know we can create high voltages almost for free. That is, we can create a strong electric field for free and as long as the charges outside our system that may be affected by this field cannot influence the charge carriers in our system, we can use that field for free.
Now enter Gray's "Conversion Switching Element Tube" (CSET). This consist of two rods, "connected" trough a spark gap, and concentric with those a grid in the shape of a tube. Now obviously, if you would connect that grid to the open end of a resonating coil, the voltage of the grid would go up and down in the rythm of the coil resonance frequency. However, because any current that could be induced to flow trough the rod in the centre of the tube would flow perpendicular to the tube's surface, the voltage variations of the grid cannot induce a current in the length direction of the rods. In other words: they cannot influence the charge carriers in the driving circuit going trough the rods. However, the other way round is completely different. When the voltage of the centre rod is suddenly risen, that will influence the voltage on the grid, which is just about perfect to drive this high-voltage zero-current terminal of the coil in resonance. In other words: this is in essence a way to drive a half open resonating coil from the other side. The side where the charge carriers are not moving, the side where there is only high voltage but no current. The side you can drive for free from the electric field.
All it takes to do that is a sudden and sharp rise of the voltage of the rods in the centre at exactly the right moment. It would take little more than a pickup coil around the resonating coil and some circuitry to do that, much like you would normally drive the coil from the other side.
Now let's get that straight. When you drive a half open coil at its natural resonance frequency, at one side of the coil you have zero voltage and high current, while at the other side you have zero current, but high voltage. Now this is obviously interesting, since we already know we can create high voltages almost for free. That is, we can create a strong electric field for free and as long as the charges outside our system that may be affected by this field cannot influence the charge carriers in our system, we can use that field for free.
Now enter Gray's "Conversion Switching Element Tube" (CSET). This consist of two rods, "connected" trough a spark gap, and concentric with those a grid in the shape of a tube. Now obviously, if you would connect that grid to the open end of a resonating coil, the voltage of the grid would go up and down in the rythm of the coil resonance frequency. However, because any current that could be induced to flow trough the rod in the centre of the tube would flow perpendicular to the tube's surface, the voltage variations of the grid cannot induce a current in the length direction of the rods. In other words: they cannot influence the charge carriers in the driving circuit going trough the rods. However, the other way round is completely different. When the voltage of the centre rod is suddenly risen, that will influence the voltage on the grid, which is just about perfect to drive this high-voltage zero-current terminal of the coil in resonance. In other words: this is in essence a way to drive a half open resonating coil from the other side. The side where the charge carriers are not moving, the side where there is only high voltage but no current. The side you can drive for free from the electric field.
All it takes to do that is a sudden and sharp rise of the voltage of the rods in the centre at exactly the right moment. It would take little more than a pickup coil around the resonating coil and some circuitry to do that, much like you would normally drive the coil from the other side.
But the basic principle for getting free energy is to avoid killing the dipole. As I explain in my article, it is possible to manipulate the electric field for free, so if you can find a way to couple the driving circuit to the circuit that you want to drive by means of only the electric field, you can use the energy from the electric field for free. And that basically means that you don't want to have any charge carriers being exchanged between the driving circuit and the load circuit. And since no charge can flow trough a capacitor, you can do that in principle using a capacitor.
Adding one and one together, it should be possible to drive a (almost) "half open" coil into resonance by driving it from the side where there is high voltage, but no current, by a simple (small) capacitor that should not be an electrolytic capacitor, and feed that with sharp pulses, since these are easily transmitted trough a capacitor. A Bedini kind of coil driving circuit should deliver you just the kind of driving signal you need: a spike, with a sharp rise at the front.
However, at the other side of the coil, there is zero voltage, but high current. In other words: at the other side of the coil we need to have charge carriers available. That is why we have to connect that end of the coil to earth. Plenty of charge carriers there!
And then suddenly it also becomes clear why Tesla's single wire transmission is so interesting. Because if you have the primaries of multiple transformers resonating at their natural resonance frequency, all it takes to extract free energy from the electric field is to connect the "cold" side of these resonators (there where no current flows) to one another....
So, I'm going to experiment with this when I have some time. See the attached schematic. Feel free to do with this whatever you want.
well to their disadvantage, not mine
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