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There are no monopole magnets
The name "monopolar" needs perhaps an explanation. We know from "Physics-101" that magnets always have two poles, with equally divided forces, and if we cut such a magnet, then we receive two identical ones, with a "Bloch Wall" in the middle. Meanwhile after 12 years of research Peter Kulish designed a magnetic system capable of delivering the concentratedmagnetic field with suitably chosen configuration, induction, or gradient and high-density flux. This field is of a "monopolar" nature, since creating a highly concentrated magnetic focus the Magnetizer utilizes in over 90% the energy of only one of the poles of its magnets, while screening, through the patented flux driver plate, the force of the other pole, which gets dispersed. That energy (S or N pole, depending upon needs), contrary to all other multi-polar systems (including the bi-polar one) is not cancelled out now by the opposite pole (energy). In this way the Magnetizer effectively polarizes all fluids that pass through its field. The special, difficult to arrive at, ceramic magnetic alloys, coupled with the flux driver plate, and encapsulated in plastic of different thermal characteristics depending on final use, in the simplest possible design, thus became the sought after "Magnetizers".
Monopolar or Bipolar systems?
In order to achieve maximum positive or negative magnetic charge in a fluid, only the singular pole influence should be used. By analogy if hot water is desired, one does not use the cold one and vice/versa. All bi-polar opposing pole systems give left/right displacement of electron spin ("hot/cold") equal 50/50 and thereby have proven throughout the years that these bi- or multi polar cancelling systems give the improper exit pole imprinting, one of the two parameters of effective fluid conditioning. The second parameter is the high magnetic field strength. Any single sided bi- or multi-polar system is extremely low powered to effectively condition the fluids for guaranteed results. The reason is that the field generated by any magnet originates and is concentrated in its head. The field emanates then and disseminates like an umbrella all around the magnet until it goes to the other head, greatly reducing the power at its sides. The field measured at the magnet's sides represents only a very minor percentage of its total magnetic strength. With the bi-polar systems fluid flowing along side of the magnet forces the magnet's lateral fields to do the conditioning. Thus, almost 95% of bi-polar unit's potential magnetic strength is wasted, as naturally the lines of flux travel between the poles and not axially (radially) into the centre of the pipe to proper condition the fluid.
Differences between Bi-polar and Monopolar systems
The single (mono) pole technique of the Magnetizer has no cancelling effect and practically offers the highest necessary flux density ("voltage") available. Our ceramic, aerospace quality, strontium ferrite magnets, with an industry power rating of 8-9 (much higher and more effective than in other systems) are magnetized through their thickness. The fluid is exposed exclusively to the head, where all the power is. When the Magnetizer is placed parallel to the flow, around the outside circumference of a pipe, the entire head of one of its poles faces the fluid, while the opposite pole radiates an insignificant part of its power away from it. Such a configuration serves to concentrate one pole's full strength into the fluid's mass. The result is that the fluid is properly conditioned by the greatest concentration of power available.
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