Difference between revisions of "The Nature of Electromagnetic Induction"
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− | Electromagnetic industion is usually attributed to generation of electric fields by changing magnetic fields to generation of magnetic fields by changing electric fields. However, an analysis of the causal relations in time-variable electric and magnetic fields has shown that neither of the two fields can create the other, and that in time-dependent systems both fields are simultaneously created by a common causative source--the time-variable electric current. A time-variable electric current creates an electric field whose direction is parallel to the current. This field exerts a "dragging force" on electric charges located within nearby conductors thus creating induced electric currents in them.[[Category:Scientific Paper]] | + | Electromagnetic industion is usually attributed to generation of electric fields by changing magnetic fields to generation of magnetic fields by changing electric fields. However, an analysis of the causal relations in time-variable electric and magnetic fields has shown that neither of the two fields can create the other, and that in time-dependent systems both fields are simultaneously created by a common causative source--the time-variable electric current. A time-variable electric current creates an electric field whose direction is parallel to the current. This field exerts a "dragging force" on electric charges located within nearby conductors thus creating induced electric currents in them. |
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+ | [[Category:Scientific Paper|nature electromagnetic induction]] |
Latest revision as of 11:20, 1 January 2017
Scientific Paper | |
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Title | The Nature of Electromagnetic Induction |
Author(s) | Oleg D Jefimenko |
Keywords | electromagnetic induction, electric fields, magnetic fields |
Published | 1996 |
Journal | Galilean Electrodynamics |
Volume | 7 |
Number | 5 |
Pages | 83-86 |
Abstract
Electromagnetic industion is usually attributed to generation of electric fields by changing magnetic fields to generation of magnetic fields by changing electric fields. However, an analysis of the causal relations in time-variable electric and magnetic fields has shown that neither of the two fields can create the other, and that in time-dependent systems both fields are simultaneously created by a common causative source--the time-variable electric current. A time-variable electric current creates an electric field whose direction is parallel to the current. This field exerts a "dragging force" on electric charges located within nearby conductors thus creating induced electric currents in them.