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Unusual resonance And diode
This experiment may not work, because there are many factors influencing it, and the process has been conducted by nobody, which can cause additional uncertainty. However, the results of this experiment may surprise many researchers of free energy. The experiment is one of the results of studies And diode. On konstruktsii this unusual device we describe later, and now present it to the symbol (Fig. 1a) and scheme of experiment (Fig. 1b).
Fig.1. The symbol (a) and scheme experience And diode ID1 (b)
The symbol And repeats the device-diode: needle-shaped anode and a flat cathode. In this way it is included in the scheme: plus is supplied to the anode. The scheme also includes: a high voltage source HV1, the voltage multiplier VM1, resistance R1, two arrester FV1 and FV2, high-voltage capacitor C1, a step-down transformer TR1 and nizkovoltnoy bulb EL1 (Fig. 1b).
The appointment of HV1 and VM1 — receiving a high voltage of 15-25 kV for proper operation And diodes. With a smaller value of the ionization process of air it may not start. The current from VM1 passes through the limiting resistor R1, the first discharger FV1 and flows in the diode. If the ID1 consider the classical diode, given the further parallel connection of the capacitor C1 and the primary winding of the transformer TR1, the circuit is closed and current is the same everywhere in it. In addition, in this case, the speed of propagation of charges everywhere in the circuit are also the same. But the diode works differently: the part time he spends on ionization, and another part — to the passage of ions from the anode to the cathode, hence the speed of movement of charges in the chain, in different locations will differ, which sometimes leads to interesting effects. One of them, we further describe.
In a not configured state diagram in figure (1b) will work almost classical manner: between electrode gaps will be small and almost silent spark, and work, And diodes will not be heard at all, which ultimately will lead to the dim glow of the bulb EL1. Of course, the brightness of its glow will depend on the parameters of the elements, but it is better to pick up, the intensity of which will barely smolder. But if you choose the right capacity C1, which works in conjunction with the transformer TR1, and the gaps the two gaps, it is possible to achieve the desired effect, And when the diode will be heard bursting. Roughly the same will happen with arresters: spark will change with silent and almost invisible in bright white and exploding, and the brightness of the bulb (at the moment of explosion) will increase by 20-100 times. This figure is estimated because the meter does not have time to correctly measure the pulse of the flash. If limiting resistance R1 is small, then a reverse wave, which is generated this effect can go into the source HV1 and completely destroy it. Interestingly, when this multiplier VM1 may remain intact. If too large R1 the effect will be subtle, so this resistance will also have to pick up.
Finding the right gap at gaps reminiscent of the selection of the resonant frequency in the resonant circuit, and when he found, in the schema there is a clear wave low frequency process! By analogy with fluid dynamics can give an example of water hammer [1].
As the high voltage source HV1 you can use neon transformers on the output voltage 3-7 kV. The author used such. It is important that the frequency of its operation was more than 10 kHz, it is necessary for a proper voltage conversion followed by a multiplier VM1. The multiplier can take from a TV with a cathode ray tube, for example УН8.5/25. On the output it should give a spark at least one centimeter.
Arresters can be made of two bolts with a diameter of 3-4 mm, which will be the electrodes. The gap between the last shall be adjusted from 0 to 5 mm. Will be very good if the gap will be placed in the middle of the annular magnet, the magnetic field which would be better to interrupt the spark gap and increase the effect.
The capacitor C1 need to pick up together with the primary winding of the transformer TR1. In any event, this capacitor must be rated for a voltage below 25 kV and have a good supply of reactive power. Example: KVI-3. The transformer TR1 can be ready take, for example, from the same TV with a cathode ray tube (FA) or wound in two coils. Example. The primary winding is wound on a frame 50 mm wire 0.3-0.5 mm and a winding length of 25 cm on Top of these is wound a secondary winding wire of 2-3 mm, and also to fill. Inside the frame are inserted ferrite rings.
The most difficult part is the diode. To do this, the author used a beer can with the bottom cut off and the neck. At both ends it is closed the segments of the clutches and couplings are inserted plugs. This entire kit (clutch and plug) you can buy at the hardware store; it needs to be calculated for pipes of 50 mm. the Anode can be done independently, but the author used the ready: brush (brush) of metal for cleaning of heat exchanger and boilers with a diameter of 40 mm. For further experiments, you can use other sizes. Before installing, make sure no bristles, in favour of a common diameter; they must be neatly trimmed. The free ends of such brushes are well fastened into pre-drilled holes of the plugs. So that the anode And the diode is a metal brush, and the cathode — housing banks. Design is a reliable, portable and modular (Fig. 2).
Fig.2. Some of the elements and the phases of Assembly And diode
The materials used
  1. Wikipedia. Hydraulic shock.