What is Electromagnetic Induction and How Does it Work?

AI Thread Summary
Electromagnetic induction occurs when a changing magnetic field induces a current in a nearby coil. In the discussion, it is clarified that closing a switch in one circuit creates a magnetic field that influences another circuit, even if the power source is not initially on. Lenz's Law explains that the induced current will flow in a direction that opposes changes in the magnetic field. The participant expresses confusion about the timing of current flow and magnetic field generation, ultimately realizing that the magnetic field only appears after the switch is closed. Understanding these principles is crucial for grasping the fundamentals of electromagnetic induction.
gabby_w
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Hi everyone,
So I feel sort of stupid posting what you'll probably find is a very elementary question but physics really isn't my best subject and I'm completely stumped. Thanks so much!
Oh, and there's also the possibility that this question is just really badly worded.

Homework Statement


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Homework Equations


It's a question based simply on theory, not really any equations involved that could help with the answer I don't think..


The Attempt at a Solution


I was unaware that you could induce a current in a coil without a magnet... So I have no solutions?
 
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The coil on the left produces a magnetic field, when current flows through it.
 
Yeah I felt sort of stupid after I posted this question and figured that out... But with part (a) of the question, closing the switch wouldn't cause a current to flow through it, right? And therefore no magnetic field? Because it doesn't say that the power source is on until part (b)...
 
gabby_w said:
Yeah I felt sort of stupid after I posted this question and figured that out... But with part (a) of the question, closing the switch wouldn't cause a current to flow through it, right? And therefore no magnetic field? Because it doesn't say that the power source is on until part (b)...
That's precisely when the circuit on the left has most influence on the circuit on the right.

Closing the switch means that the circuit on the left suddenly produces a magnetic field through the coil in the circuit on the right. However, according to Lenz's Law, a current is induced in the circuit on the right in a direction which produces a magnetic in a direction which tends to oppose any change in magnetic field through the coil.
 
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