First, we verified that magnet movement would induce a current. Each time the magnet moved near the wire loop.
whether it was moving forward or in reverse, a current registered. When the magnet was stationary, a current of
milliamps was generated.
Under normal magnet polarity, whenever the magnet was moving toward the loop, the induced current had a
v value, and a
v value if the magnet was moving in reverse. Under reversed polarity, we found
the results to be exactly
in current direction, while the current maximums were
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