Hi,
I was talking with an electrician buddy today about induction and the creation of current, and it left me a question I haven't found an answer for yet.
If you pass a magnet over another magnet, does it always create some level of electrical current at some small level?
Would any two magnets moving relative to each other make them a rotating transformer, even for only a moment?
If magnets pass each "over" each one another with their opposite poles facing each other, is there a difference in the field created or current created vs. if magnets pass over each other with both 'positive' poles or 'both' negative poles facing each other?
I'm kind of trying to figure out if a magnetically suspended turntable platform or magnetically suspended equipment supports generate current when they do what they do, or what sort of magnetic field they create and how big the field is, and how the motion of the two magnetic fields changes the characteristics of the field.
If that makes sense.
Hi,
I was talking with an electrician buddy today about induction and the creation of current, and it left me a question I haven't found an answer for yet.
If you pass a magnet over another magnet, does it always create some level of electrical current at some small level?
Would any two magnets moving relative to each other make them a rotating transformer, even for only a moment?
If magnets pass each "over" each one another with their opposite poles facing each other, is there a difference in the field created or current created vs. if magnets pass over each other with both 'positive' poles or 'both' negative poles facing each other?
I'm kind of trying to figure out if a magnetically suspended turntable platform or magnetically suspended equipment supports generate current when they do what they do, or what sort of magnetic field they create and how big the field is, and how the motion of the two magnetic fields changes the characteristics of the field.
If that makes sense.