G10.1. Properties of the Magnocraft during the magnetic whirl mode of operation
© Dr. Eng. Jan Pająk

G10.1. Properties of the Magnocraft during the magnetic whirl mode of operation

The powerful whirling magnetic field creates a circulating electrical field around the Magnocraft's surface which sweeps away any ionized molecules present in the air. These molecules collide with one another, causing cumulative ionization of the air near the vehicle, and creating a plasma whirl which follows the whirling magnetic field. So the first property of the Magnocraft caused by the magnetic whirl is a "plasma whirl" which also circulates around the Magnocraft's surface. This swirled plasma creates a characteristic "ionic picture of the whirl" which is explained in subsection G7.3 and illustrated in Figure G27.
The particles from the plasma whirl that rotate around the vehicle are acted upon by centrifugal forces. These forces cause the rejection of air from the Magnocraft's surface and the creation of a local "vacuum bubble" around its body. This bubble is simply an area of local vacuum that surrounds the hulk of the Magnocraft and that is created due to the rejection by the vehicle’s whirl particles of surrounding matter. So when the Magnocraft flies in the air or water, it in fact flies in a small bubble of the local vacuum that it created around itself. This vacuum bubble eliminates viscous friction between the craft and the atmosphere, making it possible to reach speeds much higher than would normally be possible because of the heat barrier. A rough estimation of these speeds gives the value of around 70,000 km per hour in the air, and about 800 kilometres per hour for flights under water. In free space away from the atmosphere, this vehicle can attain a speed only a small fraction of a percent smaller than the speed of light.
The second important property of the Magnocraft is the elimination of sound waves by the plasma whirl. This principle involves the breaking of the pressure cone which is formed in front of all flying vehicles and which is the source of sound caused by their flight. This enables the Magnocraft to fly noiselessly even in cases when it reaches velocities in excess of the sound barrier. Of course, during flights in modes of operation other than the magnetic whirl mode, this cone of frontal pressure is not eliminated, thus the vehicle is going to generate appropriate sounds.
Air plasma emits a light. Therefore a next property of the Magnocraft is that in the magnetic whirl mode of operation it forms around itself a hot plasma cloud which emits a powerful incandescent light from the ionized air. Thus, in the magnetic whirl mode of operation, the body of the Magnocraft is completely hidden inside a ionized cloud. For precise manoeuvring in this mode, it is necessary to use special periscopes (see (1) in Figure G5) which extend beyond the range of the ionized air. Because the main constituents of air are nitrogen and oxygen, whose ions glow red, yellow, green and violet, depending on the conditions of fligh, these colours are dominant in the plasma cloud produced around the Magnocraft.
High energy plasma can destroy all hard materials. This is already utilised in the application of plasma lancets. Therefore, the plasma whirl of a Magnocraft forms a kind of circular saw of enormous power, which spins around the Magnocraft and which is capable of evaporating a hole in every object with which this vehicle is in contact. In my monographs it is called the "plasma saw". This plasma saw provides another property, whereby the vehicle is able to cut into the hardest rock and tunnel through it. During these flights of the Magnocraft through solid materials, such as rocks, buildings, bunkers, or machinery, it leaves behind tunnels with a geometrical shape and vitreous surface - see Figure G31. Attributes of these tunnels are described in subsection G10.1.1 that follows.
Both the whirling magnetic field of the Magnocraft and the plasma saw that follows it, both create a sort of "inductive shield" that protects the vehicle from outside attack. Therefore the next property the Magnocraft has is the ability to destroy and repulse any objects in its path which are made of electrical current conductors (such as missiles, aeroplanes, meteorites, or cosmic dust). The destruction of such objects is achieved by inducing in them powerful electric currents that cause the material from these objects to instantly evaporate from the inside, until they explode and then burn up in the plasma whirl. Splinters from such exploding objects are porous and full of vapour bubbles, thus roughly resembling the consistency of retort coke.
When the distance from the Magnocraft is too great to cause the explosion of a given conductive object, then the whirling currents induced in material of this object cause that it ceases to be an electrical conductor. In this manner, the approach of the Magnocraft to any power-line, or to any high voltage line, or just to any power supply cable, prevent the flow of electrical power through this conductor. This cuts the circuits off from any electricity supply. In the effect, affected electricity consumers or entire power stations found in the vicinity of such a vehicle, are deprived of their supply of electric power.
The magnetic whirl also produces beams of electromagnetic waves, which in the vicinity of this vehicle may destroy television transmission, radio connections, telecommunication, etc.

=> G10.1.1.
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