Difference between revisions of "Seat of Unipolar Induction"
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==Abstract== | ==Abstract== | ||
− | A modified version of Faraday's unipolar inductor is presented. A special circuit is employed to reveal the portion of the circuit which has the seat of the unipolar induced emf. Historical questions concerning unipolar induction are thereby finally answered here: 1) The magnetic field lines do not rotate when a magnet is rotated. 2) Relative motion of the rotating disk and magnet is not essential to induce an emf. 3) Maxwell's flux rule is not always applicable. | + | A modified version of Faraday's unipolar inductor is presented. A special circuit is employed to reveal the portion of the circuit which has the seat of the unipolar induced emf. Historical questions concerning unipolar induction are thereby finally answered here: 1) The magnetic field lines do not rotate when a magnet is rotated. 2) Relative motion of the rotating disk and magnet is not essential to induce an emf. 3) Maxwell's flux rule is not always applicable. |
− | [[Category:Relativity]] | + | [[Category:Scientific Paper|seat unipolar induction]] |
+ | |||
+ | [[Category:Relativity|seat unipolar induction]] |
Latest revision as of 19:55, 1 January 2017
Scientific Paper | |
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Title | Seat of Unipolar Induction |
Author(s) | Francisco J M?ller |
Keywords | unipolar induction, special circuit, magnetic field, relative motion, Maxwell's flux rule |
Published | 1987 |
Journal | None |
Pages | 156-169 |
Abstract
A modified version of Faraday's unipolar inductor is presented. A special circuit is employed to reveal the portion of the circuit which has the seat of the unipolar induced emf. Historical questions concerning unipolar induction are thereby finally answered here: 1) The magnetic field lines do not rotate when a magnet is rotated. 2) Relative motion of the rotating disk and magnet is not essential to induce an emf. 3) Maxwell's flux rule is not always applicable.