Difference between revisions of "Eddy current in a pendulum"
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(Created page with "__NOTOC__ Back to 5K - Electromagnetic induction<br> PIRA index: 5K20.10 ==Description== The energy of pendulum is dissipated by the eddy current created by the varying m...") |
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*Metallic pendulums with and without slits | *Metallic pendulums with and without slits | ||
*Support | *Support | ||
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==Images & Movies== | ==Images & Movies== | ||
{{#widget:YouTube|id=8dPBDqY6jO4}} | {{#widget:YouTube|id=8dPBDqY6jO4}} | ||
+ | {{#widget:YouTube|id=qvpnXMGXUHk}} |
Latest revision as of 16:08, 2 February 2018
Back to 5K - Electromagnetic induction
PIRA index: 5K20.10
Description
The energy of pendulum is dissipated by the eddy current created by the varying magnetic field in the metal. Eddy current can be avoided by having slits in the metal perpendicular to the motion and the magnetic field.
Equipment
- Metallic pendulums with and without slits
- Support
- Big horseshoe magnet
Instructions
Keywords
Images & Movies