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kinki bracelet

kinki bracelet. microtech project by marta lwin. Faraday principal of electromagnetism. If an electric conductor, like copper wire, is moved through a magnetic field, electric current will be generated and flow into the conductor. Electromagnet development.

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kinki bracelet

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  1. kinki bracelet microtech project by marta lwin

  2. Faraday principal of electromagnetism

  3. If an electric conductor, like copper wire, is moved through a magnetic field, electric current will be generated and flow into the conductor.

  4. Electromagnet development Coil and magnet configuration experiments and results: .04 v .01 v

  5. .06 v .18 v

  6. Building the circuit

  7. .23 v before cap CAPACITOR .33 uf .50 uf 1 f LED .24 v .24 v .28 v at LED with a 1 f CAP at wires at end of bridge

  8. Things learned: The ratio of coil diameter to magnet is very important. In order to get this bracelet to work, it will require a much wider radius then, the coils I have tested.

  9. Further development steps: Test output of electromagnetic generator with a stronger magnet with greater diameter. Test coil configuration and it’s ratio to distance the magnet passes. Redesign shape of holding container to house the magnet and coil.

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