Faraday's law to find direction of current

AI Thread Summary
Using Faraday's law, the direction of the induced current in the left loop can be determined by analyzing the magnetic field changes caused by the rotating right loop. Initially, the magnetic field inside the left loop points into the page, while the right loop's rotation decreases the magnetic flux through the left loop. To oppose this decrease in flux, the induced magnetic field must strengthen the existing field going into the page. Consequently, applying the right-hand rule indicates that the induced current in the left loop will flow clockwise. This conclusion aligns with the principles of electromagnetic induction.
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Homework Statement



Using Faraday's law, state the direction of current in the loop on the left. (Picture attached)

Homework Equations



\epsilon = -d\Phi/dt

The Attempt at a Solution


I know that, assuming the direction of the current on the right side of the loop is from positive to negative, the magnetic field induced by the current above the loop will go into the page, come out of the page in the center of the loop, and go into the page below the loop. However, once that loop starts rotating, I have a hard time keeping up, and I can't figure out which direction the current will lop in the other loop.
 

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Since you're looking for the current induced in the left loop, you need to first determine the direction of the magnetic field inside that loop. What you've found is that the field outside the right loop points into the page while the field inside the right loop points out of the page. Since the left loop is outside the right loop, the field points into the page inside the left loop.

Now, as the right loop begins to turn, does that increase or decrease the flux through the left loop? Once you know that, does the induced field need to augment or decrease the external field to oppose this change in flux? Then, finally, you can figure out which way the induced current must flow to create the induced field.
 
Well, as the field begins to rotate, I believe the flux will decrease as the field becomes more parallel with the loop. Thus, the induced field must increase to augment the field and oppose the change in flux, which means the field going into the page will be strengthened, and right hand rule means that the current will flow clockwise in the left circuit. Thank you for your help!
 
Yup, you got it!
 
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