Title: ÐœÐ°Ð³Ð½Ð¸Ñ‚Ð½Ð¾Ðµ Ð¡Ð°Ð¼Ð¾Ð´Ð²Ð¸Ð¶ÐµÐ½Ð¸Ðµ
Post by: andrei_62 on November 22, 2011, 02:36:45 PM

Title: Re: ÐœÐ°Ð³Ð½Ð¸Ñ‚Ð½Ð¾Ðµ Ð¡Ð°Ð¼Ð¾Ð´Ð²Ð¸Ð¶ÐµÐ½Ð¸Ðµ
Post by: ramset on November 22, 2011, 03:22:58 PM

Title: Re: ÐœÐ°Ð³Ð½Ð¸Ñ‚Ð½Ð¾Ðµ Ð¡Ð°Ð¼Ð¾Ð´Ð²Ð¸Ð¶ÐµÐ½Ð¸Ðµ
Post by: teslaalset on November 23, 2011, 06:20:09 AM

Thanks to Google Translate (it really isn't hard, Chet....):

The main property of a permanent magnet is the presence of directed motion to the effect of the forces of gravity, in relation to any other pole of the magnet core (main pole permanent magnet magnetized iron main pole permanent magnet).
A series connection of opposite poles get a chain of motion in two directions (Fig. 1), which has limited the length of the corresponding mechanism Magnetic self-motion.
The chain length without distributes power as follows: beginning chain - the mechanism of magnetic self-motion, the center of the chain - draws each of the main poles, the end of the chain - the continuation of the magnetic self-motion.

The magnetic self-movement interacts well with the effect (dipole) repulsion (we directed repulsion) (Fig. 2).

Chain with a magnetic self-movement and the main pole of the permanent magnet can perform actions (directional movement) overcoming resistance to the main poles (repulsion or attraction). If, in addition to apply basic insulation of the poles of the magnetic circuit and a multi-sequence isolation magnetic circuits, where each magnetic circuit and the main magnetic pole plate will do the work in its stand-alone level - suggests the possibility of creating technology of circular rotation, based on magnetic self-propulsion or directional effect of repulsion.

Other variants are possible: the iron cores of the electromagnets to magnetize the main poles of a permanent magnet set in a circle semicircle (not a complete circle) and at different levels to complete the circle. Where each half-ring in a certain sequence will interact with the magnetic circuit of self-motion, for a circular rotation. In countering the effect of magnetized iron repulsion is negligible.

Interaction with the electric shock.

In the center of the copper coil insert the iron core, the coil is connected to a power source - after the saturation of iron cores are working on the core center of the chain with a magnetic self-movement - there is no interaction (With AC there is vibration).
To obtain the effect of the magnetic self-motion, on the opposite side of the magnetic circuit, the iron core, attach the main pole permanent magnet. Coil connected to a power source, working on the core center of the chain with a magnetic self-movement - emerged the interaction between the iron core, magnetized main pole permanent magnet and a magnetic circuit with self-movement (the magnetization of the iron core basic pole permanent magnet currents in the coil increases all magnetic effects, while direction of current in the coil is not important).
The magnetic self-propulsion is capable of producing work movement in two directions, interacting with the iron-core electromagnet, magnetized main pole permanent magnet, and the current in the coil of the electromagnet increases the effect of the magnetic self-motion.

The origin and receiving an electric current.

In the center of the copper coil insert sharp iron core. Touching the tip of the core center of the neutral zone (the magnetic self-motion) magnetic cube bipolar magnet, and having made a reciprocating motion with no air gap, about 1 / 10 of the square of the magnetic self-propulsion - an electric current.
The same actions committed by the main pole - current there is negligible.
In the center of the copper coil insert an iron core. And the magnetic cube, for comparison (at constant current of iron with a fixed air gap) in turn are working the main pole of the permanent magnet and the magnetic self-movement. We obtain almost the same voltage, although there is talk a little higher and straighter with magnetic self-motion, with markedly reduced the attraction between magnetic self-movement, and iron. For comparison of the current center of the copper coil should look at the circuit and the magnetic self-movement or to the main pole of a permanent magnet, the movement of produce across the center of a copper coil.
For comparison of electric current to the copper coil with an iron core set rotating circular platform with an electric drive, and in turn compare the effects of the main magnetic pole and the self-motion, setting the magnetic cube on the platform with a fixed air gap between the magnet and the iron core copper katushki.U magnetic self-propulsion-bit higher voltage, slightly below the current.
In theory: The above properties indicate the effect on the ability to create engine-generator, where it has obtained the current increase of the magnetic effect of self-propulsion.

Title: Re: ÐœÐ°Ð³Ð½Ð¸Ñ‚Ð½Ð¾Ðµ Ð¡Ð°Ð¼Ð¾Ð´Ð²Ð¸Ð¶ÐµÐ½Ð¸Ðµ
Post by: ramset on November 23, 2011, 09:18:20 AM

Teslaalset
Your competence in these things is greatly appreciated!!
There are so many Tongues [dialects] in eastern Europe,I always seem to choose one[translation] that just doesn't get it right.
Thank you
Chet

Title: Re: ÐœÐ°Ð³Ð½Ð¸Ñ‚Ð½Ð¾Ðµ Ð¡Ð°Ð¼Ð¾Ð´Ð²Ð¸Ð¶ÐµÐ½Ð¸Ðµ
Post by: andrei_62 on February 18, 2014, 10:23:32 AM

Addition. Sorry for the translation.

Directional movement.

The main property of the neutral zone is the presence of a permanent magnet directed driving force (the magnetic self-motion ) with a pronounced attraction towards any main pole of the other magnet (main pole permanent magnet magnetized iron main pole permanent magnet).
Series connection of opposite poles get chain movement in two directions, having a limited length , corresponding to a magnetic mechanism self motion.

Chain lengths not limited distributes magnetic properties as follows: at the beginning and at the end of the magnetic circuit self-propulsion mechanism, the center of a chain - attraction.

Magnetic self-motion interacts well with the effect (dipole) repulsion (get directions repulsion effect)

Multilevel sequential circuits with self-movement of the magnetic poles and the main permanent magnet can perform actions (directional movement) overcoming resistance effect of repulsion and attraction major poles.

Interaction with a magnetized iron.

If you set the washer on the magnetic circular convex freely rotating platform on the edge of the main pole magnetic disk at a minimum distance from each other semicircle magnetize iron bars. Then when exposed to a magnetic circuit semicircle self-movement - get driving directions (rotation) from beginning to end semicircles.

Interaction with electric.

In the center of the copper coil insert an iron core coil is connected to a power source, working on the core center of the magnetic circuit with self-movement - no directional movement.
To obtain the effect of the magnetic self-motion from the opposite sides of the magnetic circuit , the iron core , attach the main pole of the permanent magnet core working on a chain with a magnetic self-movement - directional movement arose . Increase the air gap between the magnetic circuit and the self-movement of the iron core copper coil of termination to the interaction of directional movement , the coil is connected to a power source - appeared directed interaction between the iron core magnetized main pole permanent magnet and a magnetic circuit with self-movement (when magnetizing the iron core of the main pole of the permanent magnet current in the coil of the electromagnet increases the pulling force of the magnetic self-motion , and the direction of the current in the coil is not important).
Magnetic self-movement work is capable of producing directional traction movement, interacting with an iron core electromagnet pole magnetized main permanent magnet while the current in the coil of the electromagnet increases the pulling force of the magnetic self-motion.

Occurrence and receiving electric current.

In the center of the copper coil insert sharp iron core . Touching the tip of the core center of the neutral zone (the magnetic self-motion ) bipolar magnetic cube magnet and reciprocating motion without an air gap of about 1/10 of the area of the magnetic self-motion - an electric current . The same actions committed with the main pole permanent magnet - current arises negligible. When approaching and removing the main pole of the permanent magnet to the iron core copper coil - an electric current . The same actions committed by the magnetic self-movement - current arises negligible.
In the center of the copper coil insert the iron core and the plane of the magnetic cubes with magnetic self-movement perpendicular to the fixed iron core with an air gap commit linear motion with the approach and removing the magnetic cubes . ( Let's consider the picture of the current at constant iron) . Get - mechanical approach and removal of the main poles of opposite currents in one direction , in the plane of the magnetic self-movement - current of opposite direction . ( The same actions without the iron core - picture of the physical properties of a magnet is the same) .
For comparison of electrical current to the copper coil with iron core rotating circular platform install electric and alternatively compare the impact of the main pole and the magnetic self-motion , setting the magnetic cube on the platform with a fixed air gap between the magnet and the iron core copper coil . In the magnetic self-motion slightly higher voltage slightly lower current. These magnetic properties of self-movement point to the possibility of creating an engine - generator , where the resulting current consumption will increase traction effect of the magnetic self-motion.

For example: Magnetize the iron cores of the electromagnets main pole permanent magnet establish a semicircle around the circumference ( unfinished circle) and different levels of other semicircles complete circle ( on the basis of the stator ), where each half ring in sequence will interact with the magnetic circuit of self-movement - in multi-level sequence of construction magnetic circuits ( on the basis of the rotor ) to obtain a circular rotation , rotation of the electric current , amplifying the pulling force of the magnetic self-motion. When you remove the magnetic circuit of the semicircles arise attraction effect . To reduce the effect of gravity is needed to counter - lowering measures in the case of the interaction of the generator and chemical current source - collector apply .

The public domain.

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New theories about free energy systems => The theory of energy streams => Topic started by: andrei_62 on November 22, 2011, 02:36:45 PM