Spinning dipole magnets can establish stable magnetic bound states. Such bound states require at least one magnet spinning out of its magnetic axis. In experiments, the base magnet (BM) is driven by a motor and spins in a fixed axis. The floating magnet, on the other hand have no fixed spin axis and have angular oscillation. When the FM obtains spin, its oscillation became complex and exhibits hypotrichoidal or epitrochoidal angular oscillations covering amplitudes up to 70 degrees. FM can also spin locks, where its spin get fixed to an integer ratio of BM spin. This spin locks can be obtained when it spins in same direction or in opposite direction of BM spin. Earlier ratios from 1/6 to 1/2 has been obtained and now ratios of 1/1 and -1/1 are obtained, that is FM can have spin lock while spinning at same speed of BM in same and in opposite dieections. This provides a symmetry between FM and BM and open the possibility of two magnets having same oscillation and spin can be bo und having parallel or antiparallel spins respect to their magnetic moments under gravity free environment. The latest videos on my playlists shows the 1/1 locked spin ratio under bound state. Experiments show also the spin axis (time averaged vector) of FM could be aligned with BM spin axis or be angled up to 90 degrees depending to setups and to dynamic conditions. I think these results can be useful to carry these dynamics in to models of particles having spin and magnetic moment. and to their interactions. https://youtu.be/_2RCXAA3VC0
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