© Magnetic self-motion.2001.  Certificate. 279. datid 11.04.2001. Kyrgyz Republic.  The main property.           1) The main property of the neutral zone of a permanent magnet is the presence of a directed force of movement (magnetic self-motion) with a pronounced attraction in relation to any main pole of another magnet. (Fig.1).                              2) When the neutral zone magnetic field moves parallel to the magnetization axis along the plane of the conducting circuit, an electric current is generated. (This statement is true: for the region between the opposite poles of a magnet, there is a resulting magnetic field. The same is true for the neutral zone of a permanent magnet--magnetic self-motion.).(Fig 3) Directed motion.   A property of the magnetic field of a permanent magnet's neutral zone is the presence of a directional force of motion (magnetic self-motion) with a pronounced attraction bordering on dipole repulsion relative to any primary pole of another magnet (a magnetized ferromagnet by the primary pole of a permanent magnet). When connecting unlike poles in series, we obtain a chain of motion in two directions.(Fig. 1).   A series circuit has a limited length, corresponding to the mechanism of magnetic self-propulsion. A circuit with unlimited length distributes magnetic properties as follows: magnetic self-propulsion occurs at the beginning and end of the circuit, while attraction occurs at the center of the circuit.   Magnetic self-propulsion interacts well with the (dipole) repulsion effect (resulting in a directional repulsion effect). (Fig. 2).     Interaction with magnetized iron.    By placing an axially magnetized magnetic disk on a freely rotating circular convex platform, we magnetize iron rods at a minimum distance from each other in a semicircle around the edge of the magnetic disk's primary pole. We apply a magnetic self-propelled chain to the semicircle to achieve directional motion (rotation) from the beginning to the end of ... Читать далее