Loop Area vs. Voltage: By varying the loop area while keeping the number of loops constant, I
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- Loop Area vs. Voltage: By varying the loop area while keeping the number of loops constant, I observed that as the loop area increased, the induced voltage also increased. This indicates a direct relationship between loop area and induced voltage, as expected by Faraday's law of electromagnetic induction. Number of Loops vs. Voltage: When changing the number of loops while maintaining a constant loop area, I noticed that increasing the number of loops led to a higher induced voltage. This outcome aligns with the principle that more loops in a coil result in a greater change in magnetic flux, resulting in a higher induced voltage.
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