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In #MESExperiments 55 I once again demonstrate Faraday's Paradox, this time showing that rotating a strong magnet with a drill about it's polar axis doesn't move individual football shaped magnets. Each magnet is placed on a polished low friction glass mirror surface, and the football shape allows the magnets to freely rotate. Moving the strong magnet attached to the drill laterally easily moves the magnets, but rotating it barely even nudges the smaller magnets. This suggests that the magnetic field does not rotate about a spinning magnet.

#physics #experiment #electromagnetism #faraday

Stay tuned for #MESExperiments 56...

Links unedited videos and more info

• Unedited video: Spinning Magnet on a Drill doesn't rotate another Magnet:
• Unedited video: Magnetic Field Viewer and Detector on Magnets:
• Magnetic Isopotentials Explain the Faraday Paradox, Stern-Gerlach Experiment, and Atomic Orbitals: https://peakd.com/hive-128780/@mes/xdxcqhxk
• MES Experiment 36: Faraday's Paradox using Ferrofluid (and Iron Filings): https://peakd.com/hive-128780/@mes/hdmneruh
• MES Experiment 35: Faraday's Paradox using Iron Filings: https://peakd.com/hive-128780/@mes/jaezbche

Timestamps

• Sawed off a bolt to attach a strong magnet to a drill – 0:00
• 3 small football-shaped magnets with south pole labeled – 0:06
• Magnet 1: Moves when drill is moved laterally but not when spinning – 0:21
• Magnet 2: Same result – 0:58
• Magnet 3: Same result even though the magnet is broken at one end – 1:40
• Magnetic pole detecting of the 3 magnets – 2:35
• Magnetic field viewing of all the magnets, including the pole detector – 2:46

Screenshots of Experiment

For reference, here are screenshots of the experiments.

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MES Links: https://mes.fm/links