EMF = (E- dl = Klectromagnet - where O is the magnetic flux) is Faraday's Law. This Coil may be used to describe what is going on in the following images.. (As noted, pictures 'b' and 'c' were taken immediately after the switch being thrown.) Explain why the isolated loop in 'c,' but not the one in 'a,' has current flowing through it.
EMF = (E- dl = Klectromagnet - where O is the magnetic flux) is Faraday's Law. This Coil may be used to describe what is going on in the following images.. (As noted, pictures 'b' and 'c' were taken immediately after the switch being thrown.) Explain why the isolated loop in 'c,' but not the one in 'a,' has current flowing through it.
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EMF = (E- dl = Klectromagnet - where O is the magnetic flux) is Faraday's Law. This Coil may be used to describe what is going on in the following images.. (As noted, pictures 'b' and 'c' were taken immediately after the switch being thrown.) Explain why the isolated loop in 'c,' but not the one in 'a,' has current flowing through it.
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