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Copyright Dr. Eng. Jan PajÄ…k
Img.102 (K4) A revealing device. It represents a simplified, self-defence version of telepathic telescopes. Such devices, if completed, would enable us to see our cosmic parasites which so-far successfully were hiding from our sight by entering a state of telekinetic flickering. More thoroughly the design of this device is described in treatise [7B].
A state of telekinetic flickering is accomplished by switching on a sequence of fast pulses of the telekinetic field. Each such a pulse is turning the object that is wrapped into this field into a transparent energy pattern or cloud. But between these pulses the object remains material and visible. Therefore, if such a flickering is fast enough, the object becomes unnoticeable for our eyes, similarly as in our motion pictures the flickering of individual frames becomes invisible for us. But each pulse of the telekinetic field can be intercepted by the device showed here, and revealed as a glowing shape. Therefore the revealing device illustrated here allows us to see normally invisible UFOnauts and their vehicles. They appear as glowing figures at the device's electromagnetic screen (s).
As this is the case with optical telescopes, also the revealing devices are composed of a main tube (t), on which all other components are to be assembled. At the frontal part of this tube a focusing magnetic lens (f) is assembled. At the rear part of the same tube the viewing magnetic lens (v) is assembled. In a simplified, self-defence version of the telepathic telescopes called here "revealing devices", such lenses (f) and (v) are simply permanent magnets (or permanent electromagnets which use DC). In centre of the tube an electromagnetic screen (s) is formed - see the dotted plane extending across the tube (t). This screen is composed of a collision surface and the athwart electrostatic field. The collision surface (s) is formed by the two magnetic fields bumping into each other with their magnetic poles (O) which represent an "outlet" for flow of counter-matter (for the notation of magnetic polarity used by present physicists: O=N). The athwart electrostatic field which is spreading from two thin electrodes (e) extending along the peripherals of the collision surface and placed at the opposite side of the tube (t). The whole interior of the tube must be filled up with an extraction glow generating substance (g).
