Magnetic levitation by rotation described by a new type of Levitron
Abstract: Recently, the authors[1][2] have highlighted a novel magnetic levitation phenomenon utilizing two magnetically equivalent permanent neodymium magnets. We propose that this system represents an analog of a scaled-up version of a Levitron[3][4]. The main distinction between these systems lies in the fact that the radius $m_/\mu_f$ now is a function of the lateral displacement $\delta_R$, and the adjustment required for magnetic trapping is not determined by the rotation speed of the float. Using an effective model, we demonstrate that the observed levitation effect can be explained within the framework of [3][4], and the condition for the potential energy to be at a minimum at the trapping point is achieved with the existence of a constraint on the $\delta_R$ parameter.
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