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Author Topic: MAGNETIC SELF-MOTION  (Read 4550 times)

andrei_62

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MAGNETIC SELF-MOTION
« on: October 28, 2019, 02:57:07 PM »
Directional movement.

  The property of the magnetic field of the permanent magnet the neutral zone is the presence of force directed motion (self-motion magnetic) with a strong attraction towards any main pole of the other magnet (magnetized ferromagnetic primary pole permanent magnet). When connecting opposite poles get motion the chain in two directions (Figure 1)
 
    The series connection in the circuit connection has limited the length corresponding to the mechanism of the magnetic self-propulsion. The chain length distributes without limitation magnetic properties as follows: at the beginning and at the end of the magnetic circuit self-movement mechanism, the center of the chain - attraction.        Magnetic self-movement interacts well with the effect (dipole) repulsion (get directions repulsion effect) (Figure 2).
 
Interaction with magnetized iron.

By setting the magnetic washer with axial magnetization is free to rotate on a circular convex platform, at the edge of the main pole magnetic disk at a minimum distance from each other semicircle magnetize the iron rods. Acting on the half-ring chain with a magnetic self-movement - get directed motion (rotation) from the beginning to the end of the half-ring. 
                       

The appearance of an electric current.

Exposure to the magnetic field of the neutral zone of a permanent magnet - The occurrence of an electric current in a conducting circuit moving in a magnetic field of the neutral zone.     Insert a sharp iron core into the center of the copper coil. Perpendicular to the iron core, touch the center of the plane with the neutral zone (hereinafter referred to as magnetic self-movement) of the magnetic cube with axial magnetization and perform reciprocating motion without air gap, parallel to the axis of magnetization of the permanent magnet, approximately 1/10 part along the plane with magnetic self-movement - an electric current.        We will insert an iron core in the center of the copper coil and with a plane with a neutral zone of a magnetic cube with axial magnetization perpendicular to the iron core of the copper coil with a fixed air gap, make a linear movement parallel to the axis of magnetization of the magnetic cube, with the approach and removal of the magnetic cube with respect to the iron core of the copper coil . Consider the picture of the occurrence of current, with permeability of iron: We get the end approximation and removal of the main opposite poles (arriving and decreasing magnetic field) - currents of the same direction, approximately 30% for electromagnetic induction, with a cos angle of 10-45 degrees. When moving in the field of magnetic self-propulsion - 100% current in the opposite direction.    The same actions without an iron core - the picture of the physical properties of the magnetic field is the same.(fig. 3).



Interaction with alternating current.

   At the center of the copper coil we insert an iron core, we pass through the coil an alternating electric current, we act on the core of the center of the chain with magnetic self-motion - there is no directional motion (the electromagnetic field does not interact with the magnetic self-motion).    To obtain the effect of directional motion, the iron core is magnetized by the main pole of the permanent magnet, we act on the core by a chain with a magnetic self-motion-a directional motion has arisen. Let's increase the air gap between the chain with the magnetic self-motion and the magnetized magnetic field of the iron core of the copper coil - until the interaction of the directed motion ceases. Let's pass through the coil an alternating electric current - a directional motion appeared between the magnetic self-motion, the iron core, the magnetized magnetic field of the permanent magnet, and the electromagnetic field of the current coil. (When the iron core is magnetized by a magnetic field, the electromagnetic field of the coil with current increases the interaction of the magnetic field with the magnetic self-propulsion, the increased traction force of the directed motion, while the direction of the current in the coil does not play an important role).

 
 
 
Interaction with direct current

  At the center of the copper coil we insert the iron core, let us pass through the coil a constant electric current, we act on the core of the center of the chain with magnetic self-motion - there is a directional movement. Connect the voltmeter to the copper coil and the magnetic circuit, we repeat the direction of motion that occurred when the electric current passes through the coil - a current of the same direction appears in the coil. Based on the interaction of magnetic self-current with a constant electric current, the simplest electromagnetic motor  was created (with electricity consumption); and the simplest electromagnetic generator (with the consumption of mechanical energy)(fig.4).
 
Released into the public domain world 03.05.2001.

norman6538

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Re: MAGNETIC SELF-MOTION
« Reply #1 on: October 28, 2019, 11:07:43 PM »
Where did this come from since it was published in 2001?
That's a while back.

Norman

andrei_62

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Re: MAGNETIC SELF-MOTION
« Reply #2 on: November 03, 2019, 11:50:07 AM »
The first publication was in 2001.

sm0ky2

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Re: MAGNETIC SELF-MOTION
« Reply #3 on: November 12, 2019, 05:51:59 AM »
And