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If I start with a neodymium magnet (n42) measuring 40mm / 10mm / 5mm with the polarity through the thickness not the length, and I wish to pass it over a coil, what would be:
The optimum gauge of the wire
The optimum wind of the wire/coil
The optimum size (length, width, depth) of the coil
The optimum distance between the coil and the magnet
if the magnet is passing over the coil at 500 passes per minute (8.333 passes per second) in order to get the optimum energy output? and would there be a ball park figure of what energy would be produced given your recommendations?
The pass would be a flat pass, and you can assume that the polarity of the magnet flips between each pass if you like (better the same polarity or alternating polarity per pass?)
Thanks in advance for your observations.
The optimum gauge of the wire
The optimum wind of the wire/coil
The optimum size (length, width, depth) of the coil
The optimum distance between the coil and the magnet
if the magnet is passing over the coil at 500 passes per minute (8.333 passes per second) in order to get the optimum energy output? and would there be a ball park figure of what energy would be produced given your recommendations?
The pass would be a flat pass, and you can assume that the polarity of the magnet flips between each pass if you like (better the same polarity or alternating polarity per pass?)
Thanks in advance for your observations.
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