The strongest electromagnet in the world
Semi half mechanical electromechanical magnet electromagnet
The speed of electrified / charged elements incorporated into a rotating disk or ring or roller or cylinder or cone or dome or sphere or ball or segments of a rotating disk, or simply the electrified disk itself, e.g. with a gap blocking the circular flow of charge, can be e.g. 16.67 metre per second ( m/s ) and this is already at a rotational speed of 1000 revolutions per minute ( rpm, rev/min, r/min, r·min−1 ). For comparison, the electron drift speed ( electron drift velocity ) in a conductor or the speed of super- current in a superconductor is in the range of 0.1 to 1 millimeter per second. In addition, instead of increasing the percentage charge of the disk elements or the disk itself, the amount of moving charge can be increased by increasing the volume of the charged disk elements or the disk itself.
Semi half mechanical electromechanical magnet electromagnet
The strongest electromagnet in the world semi half mechanical electromechanical magnet electromagnet electro mechanical the most powerful
Concept of electromechanical electromagnets with lower energy consumption and greater strength than commonly known magnets, which could enable the construction of cheaper hydrogen fusion reactors, the construction of spaceships with greater range, and enable the levitation of larger animals than in Bitter's magnets with lower power consumption. An electromechanical electromagnet ( semi-mechanical electromagnet ) is a type of magnet in which the magnetic field is produced by a rotating ring or e.g. disk e.g. with charged elements incorporated and e.g. at a rotational speed of 1000 rpm provide a speed of electrons or positive ions e.g. 16.67 m/s with a diameter of about 32 cm / 12.6 inches.
For comparison, the electron drift speed ( electron drift velocity ) in a conductor or the speed of super- current in a superconductor is in the range of 0.1 to 1 millimeter per second.
In addition, instead of increasing the percentage charge of the ring or disk elements, the amount of moving charge can be increased by increasing the volume of the charged ring or disk elements