Electromagnetic Induction and Faraday's Law w/ Right Hand Rule

AI Thread Summary
The discussion revolves around understanding electromagnetic induction, specifically Faraday's Law and the Right Hand Rule. Participants explore the direction of induced current and the movement of a positive charge in relation to changing magnetic fields. It is clarified that the induced current's direction can be determined using Lenz's Law, which helps in understanding the electric force acting on the charge. The induced emf, which exists even without a physical wire, drives the current in a loop surrounding the changing magnetic field. Ultimately, the relationship between induced current and the movement of charges is emphasized, confirming that the electric force acts leftward due to the counterclockwise induced current.
lorx99
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Homework Statement



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Homework Equations


Right Hand Rule

The Attempt at a Solution



I am not understanding why the force is left. I can only figure out that the current in the solenoid is moving clockwise because of the right hand rule. From there, I see that the induced current might be counterclockwise , but i am not sure why the positive point charge moves left.
 

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Contemplate Faraday's Law.
 
gneill said:
Contemplate Faraday's Law.
Is it moving left because the induced current is clockwise and so the electric force is left at tbat point or some other reason?
 
What precisely does Faraday's Law state?
 
gneill said:
What precisely does Faraday's Law state?
The emf produced is equal to the negative rate of change in flux
 
Right. An emf (electric field) is produced. That's what would drive a current in a loop surrounding the changing magnetic field. The emf exists in space regardless of whether or not an actual wire occupies the space.

So imagine that there's loop passing through where the charge is. If the charge was in that loop, which direction would it be 'motivated' to go?

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gneill said:
Right. An emf (electric field) is produced. That's what would drive a current in a loop surrounding the changing magnetic field. The emf exists in space regardless of whether or not an actual wire occupies the space.

So imagine that there's loop passing through where the charge is. If the charge was in that loop, which direction would it be 'motivated' to go?

View attachment 233728
Oh i think i understand. Does this involve len's law to figure out the direction of the induced current?

Once we know the direction of induced current, the electric force (electric field caused by changing magnetic field which causes the induced current is along the direction of the charge particle which is leftwards since the current is moving left at the top if the induce current is counterclockwise.
 
All correct!
 
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