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/Notes in this color and between two / are from the operator of the German mirror site and translator/.
Image sequence (#8ab): Img.028 / Img.508
Two basic configurations into which oscillatory chambers are coupled to improve controllability, namely (a) the so-called "two-chamber capsule", and (b) the so-called "cross configuration". Since most of the illustrations on this page showed first-generation cubic oscillation chambers, the above configurations are illustrated using second-generation octagonal chambers as an example.
Img.028 (#C2/#8a)
Here's what the device called an "oscillation chamber" looks like. (The dimensional lines shown on this device indicate its geometrical parameters, as explained in Img.020 (F8 - 2s) from volume 2 of my latest monograph [1/5]). This remarkable device is (1) used by second-generation UFO vehicles to generate powerful telekinetic fields that propel these starships, (2) makes them invisible to human eyes, and (3) allows them to penetrate walls without damaging those walls or the UFO. Since this advanced device has an octagonal cross-section, the columns of the telekinetic field emitted from its downward-facing outlets are also octagonal in horizontal cross-section. This is why the columns used to support the ceilings in some Christian churches, which try to mimic the pillars of such a "supernatural" telekinetic field, also receive such octagonal cross-sections in the horizontal planes. Note that the operation of the oscillatory chamber is described in volume 2 of my newest monograph [1/5] and the slightly older monograph [1/4] entitled "Advanced Magnetic Devices", the texts of which can be downloaded free of charge from the above links or from the web pages listed in "Menu 2". In turn, the characteristics of the telekinetic field which such oscillatory chambers generate, are explained in volumes 4 and 10 of the same monograph [1/4]. Because the base of the replica of the "Zhang Heng Seismograph" discussed here is shaped in an octagon, it tries to inform us in a symbolic way that it comes from space, not from Earth.
Img.508 (#8b)
The standard cross configuration of the second generation. Its most important application will be in the thruster of the four-propulsor Magnocraft - see Figure D1 (b) and (c). (In the initial period after the construction of the oscillatory chambers in question, it can also be used in the thrusters of the discoidal Magnocraft.) It is formed from five oscillatory chambers having the same cross-section (configurations of higher generations have 9 or 17 of them - see subsection C7.2.1). Four cubic side chambers (labeled U, V, W and X) surround the oppositely oriented main chamber (labeled M) which is four times longer than them. The total volume of all side chambers must be equal to the volume of the main chamber. The cross configuration is a simplified model of the Magnocraft's propulsion system. The resulting magnetic flux (R) circulated from it to the environment is obtained as the difference between the outputs of the main chamber and the oppositely oriented side chambers.
The principle of forming this resultant flux is similar to that illustrated in Figure C7. The circulating flux (C) is always formed from the output of those chambers that produce less magnetic flux (in the case shown in this figure of the dominance of the main chamber flux - from the output of all side chambers). The field force lines in the circulating flux always close their circulation through the two chambers. The cross configuration, like the two-chamber capsule, also allows full control of all the parameters of the field it produces. However, in addition to the control achieved in a two-chamber capsule, it will also be capable of swirling its field around a magnetic axis (m), thus forming its own magnetic vortex. However, its disadvantage compared to a two-chamber capsule will be the inability to completely "extinguish" the magnetic field discharged by this configuration into the environment (i.e., even if all of its output is trapped in the circulating flux C, this flux still circulates through the environment).
