Centrifugal force manipulation using magnetic field.
I want to present magnetic force system which is predicted to change centrifugal force distribution with respect to direction of the device. This magnetic system is based on application of strong electromagnets which are mechanically joined with centrally located cross-shaped rotor and they are rotating with this rotor. The masses which are mounted on each arm of the central rotor have ability to move in its axis and in bottom position are retracted to the center of the system using magnetic attraction from electromagnets each time they are passing on lowest position of the device. This device doesn't need any external rim due to magnetic control of the system and escape prevention by using special construction of those masses and ends of the cross-shaped rotor. If the mass is passing in highest hemisphere of rotation it is on highest extension from the center, so centrifugal force is stronger than in bottom position. The masses are rotating fast in one direction, so they are changing with itself by positions. The electric current needed to electromagnets is delivered by commutator located on the main axis of rotation and each time the mass is on the bottom position is turning on to supply the bottom electromagnet.
System is mounted on external ring, and in a half a distance of this ring there is central shaft with ball bearings and with rotor. System is thought in such a way that should be working with high speed and with powerful electromagnets. This will allow to prevent the system from desynchronization due to centrifugal force, which is naturally stronger with greater speed of rotation. So, application of strong electromagnets is needed. If to applicate too weak electromagnets there could be such a situation that, due to centrifugal force, the electromagnets will not manage to retract bottom mass, so the system would be symmetrical in every direction ant that would mean that no result force would be generated.
Old concept.
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