Today the BTG effect is expressed by people's interest in perfect machines capable of solving energy and economic problems, thanks to some kind of interaction with energy, directly, without intermediaries. And another point with BTG is the complete lack of understanding of the principles of interaction of such a machine. And without the principles of work, it is impossible to build a BTG. Due to a lack of understanding, people fall under the speculation of all kinds of fake devices with a superunit energy output.
They spend their time and energy on searches, forgetting that within the framework of the system, all paths for coming to true understanding are removed and closed. The emergence of BTG means a crisis of the entire modern economic system, as it shows the natural world order and reveals knowledge about the world.
Let us ask ourselves a question about the initial form of DC machine designs. A permanent magnet and battery motor is not fundamental. But he shows that direct current, when interacting with a magnetic field, gives us continuous rotation. Here is a model showing how exactly this interaction of a direct current and a permanent magnet occurs, and for this we will slightly supplement our views.
In such a motor, we see that the current, moving from the center of the disk magnet to the periphery, gives rise to rotation at the north pole in one direction, and moving from the periphery to the center of the south pole, it gives rotation again in the same direction. A change in the direction of the current when the pole of the magnetic field is changed gives the same direction of rotation. If we replace the permanent magnet with a coil, we get a situation where the rotation is generated only by direct current.
But in this case, we have not rotation, but a shift of the current relative to the magnetic field. And we need a model where exactly the circular rotation is obtained. Oddly enough, there is such a model. And we all have seen it more than once, encountered it, but due to the influence of the matrix of the official science of an artificial society, we passed by.
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There is such an experience of rotating a nail, passing a direct current through it, or, as in this case, a wire as a nail.
The arrows of the magnetic field lines indicate the direction of rotation. This geometry demonstrates to us that direct current generates a rotating looped magnetic field. This is the circumstance due to which the operation of all DC motors on permanent magnets is possible.
But in contrast to motors with a permanent magnet, in the experiment on the rotation of a nail, we see precisely the principle model of obtaining rotation on a direct current. As noted earlier, the gimbal rule carries a deeper meaning about interactions.
The original DC motor model has been sorted out. But we still have a DC generator. Note the similarity in design between the original motor and the DC generator.
I want to analyze the main interconnections, speculate, express my opinion.
To build a BTG, you first need to understand how it works. For more than 140 years, only a few have been able to obtain positive results in their experiments on obtaining excess energy.
So, we have a simple design of a direct current generator. One coil, one source of magnetic field, creating a constant current in the coil, attached to the rotor. We will not go into the technical nuances of the production of generators and their applied calculations, but we will reason on the basis of fundamental interactions. It is the basic interactions that reduce the likelihood of errors in speculative experiments.
Generator design.
We are starting to improve the efficiency of the generator. To do this, we take the condition of the smallest back-EMF for the generator, which says: Ensuring the maximum voltage at the minimum current. What does this mean? The maximum voltage is determined by the number of turns of the generator coil. The maximum current is determined by the cross-section of the conductor through the total resistance of the coil. The coil resistance is the greater, the longer the conductor length. We take a wire with a diameter of 0.2-0.1 millimeters. You can, by the way, not wind anything by hand, but take the finished legacy of Nikola Tesla - the secondary winding of an automobile ignition coil, it contains 20,000 turns of our wire, well, by the way. We wound the wire on the ring magnetic core of the stator of our generator. And what do we get in the end? back EMF is minimal, resistance on the shaft is minimal,but the output power of this generator is still less than or equal to the power applied to the rotor. But how do we get our superunit, at least hypothetically?
We have a situation when the magnetic field of the rotor, moving along the coil, creates a potential difference. And right there, at the speed of light, a current appears, which tends to compensate for the resulting potential difference. And, despite the fact that the current is very small, due to the magnitude of the high voltage, such a current has a high power and this power is less than or equal to that which we apply to the rotor. This is the true essence of the counter-EMF phenomenon.
Let's suppose that it is the counter-EMF that prevents us from receiving our superunit. It turns out that in order to provide a superunit energy output, we must somehow overtake the speed of light, with which the current compensates for the received voltage, and according to the official version, we are told that this is impossible. How can we be in this situation?
Actually, let's do it. Let's get ahead of the speed of light. For the salvation of humanity, nothing can stop us.
Have you ever wondered why a potential difference first appears in the generator, which we call voltage, and only then, at the speed of light, a current appears, striving to compensate for this voltage? The ability to ask the right questions generates the right answers.
The fact is that we remove the voltage along the turns, and the current flows along the entire length of the conductor. Let's say the rotor of our generator rotates at a speed of one revolution per second, then in order to outrun the speed of light of the back-EMF, we need a conductor length of more than 330 kilometers. But we can rotate the rotor at a speed of 100 revolutions per second, and then the length of our conductor will already be over 3.3 kilometers. Let the optimal rotor speed option be 50 revolutions per second, which is 3000 rpm, this is the standard speed for modern AC electric motors, for convenience.
To give a speed margin, let's take not 6.6 km, but 10 km of the conductor. With this ratio, the voltage increase will occur somewhat faster than the speed of light at which the back-EMF compensation current appears.
In addition, you can use more than one magnetic field source, as in our model, but 2, 3, 4, 10 and so on, you can also place the coil of our generator not on the entire magnetic circuit, but, for example, half a turn, a third, a quarter of the stator etc. It can also either shorten the length of the coil conductor or make the voltage rise even faster.
About the number of turns. We set such a number of turns so that the resulting voltage value would allow us to conveniently work with it, lower it in transformers, and so on.
But where should the superunit come from? What happens when such a machine is running?
Earlier I touched on the topic of torsion fields, which are the cause of all electromagnetic interactions. They are precisely what propagate at speeds greater than the speed of light.
The operation of the generator is the more efficient, the less the influence of the back-EMF, and when the influence of the back-EMF becomes zero, or even negative, the torsion fields no longer have time to compensate for the voltage increase due to the current increase. And in this case, our generator becomes something like a pump that creates a kind of vacuum.
The operation of such a generator will no longer give ordinary current, it will give the cool current that Tesla and Gray received, 140 and 60 years ago, respectively. A cold current generated solely by the magnitude of the static voltage, without the movement of electrons. A current capable of lighting light bulbs without heating them and producing other interesting effects as described in the literature.
For the first time we come across a description of the phenomenon of a cold current in Lindemann's book, describing the experiments and observations of Tesla. So the workers, engaged in experiments with high voltage circuits, when switching the knife switch received a fatal electric shock, despite the electrical isolation of the switch switches and the inertia of the system. Therefore, later they began to connect the turns of the primary and secondary winding of transformers with a common ground in order to avoid this sharp high-voltage surge of energy.
If we abandon the mechanical rotor in our generator and replace it with an electromagnet, we actually get what is called the Tesla Transformer or over-unit transformer. His work is based on the same principle to achieve the superluminal rate of growth of voltage in comparison with current. It's just that a step-down transformer is also immediately present here, which should produce more power than at the input of such a machine. The primary winding plays the role of a pulsed electromagnet with a ripple frequency, at which the required rate of voltage rise relative to the current is achieved.
It's just a toy:
And this is the very design of Tesla's beloved transformer with step-up and step-down circuits.
Author: GELEZNODOROGNIY