Monthly Archives: abril 2021

Trajectory of Magnetic Motors

Like John W. Ecklin in 1974, Robert George Adams in 1977, Howard Johnson in 1979, the Irish company Steorn Ldt in 2006, Shen He Wang in 2010 and the Turkish Muamer Yidiz, many decades before these dates, Nikola Tesla was already doing research on magnetic fields and knew the potential of these properties. Although we do not have any work registered in the attempt to construct a magnetic motor, he has developed great applications of the magnetic fields, 110222.00 leeson confirming the relevance and the development of technologies in this area, besides finding acceptable the construction of a device of perpetual motion.

Turkish inventor Muammer Yildiz in 2010 in the Netherlands, explained his magnetic engine running only with the power of the magnets. The motor was shown when turning a fan at high speed, and there was no wire going to the device. “The free energy of Nikola Tesla is possible,” he said as he introduced his magnetic engine. Months later he was contested and accused of being a false inventor, but they could not prove it. He is currently trying to market his magnetic motor as an available electric power generator that seems to be very versatile and useful for today’s world.

Induced Electromotive Force

The coiled rotor induction electric motor can be used as a frequency conversion device when its rotor is driven at a given speed and the electromotive force is withdrawn through the collector rings. The determination of the direction of the induced electromotive force can be made through the rule of Fleming of the right hand, that is, at rest, the frequency of the electromotive force induced in the rotor is equal to the frequency of the rotating magnetic field. But if the rotor were able to rotate at the same speed as the rotating magnetic field, there would be no induced voltage. Thus the frequency of the induced voltages in the rotor varies 174654.00 inversely with the rotor speed, from a maximum with the rotor at rest, to the zero frequency at the synchronous speed.

Thus we can imagine a squirrel-cage induction motor with rotor composed of copper conductors embedded in a three-conductor rotor iron core (A, B and C) and its relation to a multipolar magnetic field caused by a three-phase winding , due to the rotating field has a magnetic flux rotating at the synchronous speed clockwise relative to the rotor conductor A.