The induced electromotive force in any closed circuit is equal to the negative of the time rate of change of the magnetic flux through the circuit. – the most widespread version of Farady’s Law.
Essentially, any change in the magnetic environment will create a voltage among the coil. For this experiment we used a generator that by shaking it back and fourth created a voltage output. Through comarison of the # of shakes and sum of the square of voltages, we were able to graph the correlation in a 30 second period.
Our LabView results:
| # of Shakes | Sum of the square of the voltages |
| 67 | 48.1505276 |
| 91 | 312.8672713 |
| 68 | 272.2310937 |
| 123 | 269.1242462 |
Thanks for the insightful post on Faraday’s Law and your hands-on experiment with voltage generation! It’s great to see how the relationship between magnetic flux and voltage is illustrated through your results. For further exploration of electromagnetism and related experiments, A2Bookmarks Canada has some excellent resources. Keep up the fantastic work in making these concepts come alive!