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In #MESExperiments 35 I demonstrate Faraday's Paradox by showing that iron filings behave the same whether a magnet is rotating about its polar axis or not rotating at all. This suggests that the magnetic field does not rotate along this axis. Traditionally, Faraday's Paradox is demonstrated by a permenant magnet and a copper disc connected to a voltage (electric pressure) reading. It is based on Faraday's Law of Induction describing how a magnetic field will interact with an electric circuit to produce an electromotive force (EMF). The paradox is described below:

1. Rotating the copper disk generates a voltage reading.
2. Rotating the magnet does not generate a voltage reading (contrary to Faraday's Law).
3. Rotating both the copper disk and magnet generates a voltage reading (contrary to Faraday's Law).

This is paradoxical under the theory that the magnet emits magnetic field lines and that EMF is generated whenever the copper disk cuts through these lines. Thus any relative motion between the copper disk and magnet should obtain a voltage reading. My experiment suggests that the magnet is not emitting an magnet field but rather that there exists another substance (the Aether) that the magnet is interacting with.

Also in this video, I show that rotating the magnet perpendicular to its polar axis can rotate or horizontally translate the iron filings. Pretty epic stuff!

Original video and more links, including FractalWoman's Magnetic Isopotentials explanation for Faraday's Paradox

• Unedited Draft video:

Faraday's Paradox wiki: https://en.wikipedia.org/wiki/Faraday_paradox

Faraday's Law: https://en.wikipedia.org/wiki/Faraday%27s_law_of_induction

MES Livestream 10 with FractalWoman: https://www.youtube.com/live/U6d0Err8tjU?t=4715

Magnetic Isopotentials and the Faraday Paradox:

Faraday Paradox (not a paradox) Explained:

Mainstream science has no agreement on whether magnetic field rotates with a magnet or not:

and https://www.nature.com/articles/s41598-022-21155-x

Timestamps

• Iron filings, magnet, and electric drill: 0:00
• Iron filings move when paper or magnet is moved: 0:17
• Rotating magnet when polarity is the same has no effect on iron filings: 0:38
• Iron filings behave the same whether magnet is rotating or not: 0:49
• Additional Experiments: 1:01
• Placing magnet on its diameter to drill: 1:11
• Rotating magnet rotates iron filings in direction of rotation: 1:22
• Rotating magnet parallel to iron filings moves them horizontally: 1:34

Stay tuned for #MESExperiments 36...

More Experiments

MES Experiments video series - (Hive playlist) - DRAFT Experiments - MES Links

Screenshots of Experiment

For reference here are screenshots of the experiment.