Electromagnetic Induction capacitor

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SUMMARY

The discussion centers on electromagnetic induction in a thick conducting loop containing a capacitor when a magnet's north pole is moved away. It is established that excess positive charge accumulates on Plate B of the capacitor, confirming the application of Lenz's Law. Participants confirm the side facing the magnet behaves as a south pole due to induced electromotive force (EMF). The Left Hand Rule is utilized to determine the direction of induced current and charge movement.

PREREQUISITES
  • Understanding of Lenz's Law in electromagnetism
  • Familiarity with the Left Hand Rule for current direction
  • Knowledge of capacitors and their behavior in circuits
  • Basic principles of electromagnetic induction
NEXT STEPS
  • Study the principles of electromagnetic induction in detail
  • Learn about the applications of Lenz's Law in practical scenarios
  • Explore the behavior of capacitors in AC circuits
  • Investigate the effects of varying magnetic flux on induced EMF
USEFUL FOR

Students of physics, electrical engineers, and anyone interested in understanding the principles of electromagnetic induction and capacitor behavior in circuits.

Shivansh Mathur
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Consider the arrangements shown in figure in which the north pole of a magnet is moved away from a thick conducting loop containing capacitor. Then excess positive charge will arrive on : (Plate B = answer)
Capture.PNG

Am i correct in marking the side facing the magnet as south pole? ( because of Lenz Law)
My question is- How are we supposed to find where will the excess positive charge arrive?

Please help me out
Thanks in advance.
 
Engineering news on Phys.org
Find the current induced with the variant magnetic flux, and then try to find the direction of the motion of the electrons, or the positive charges.
 
Yes, got the answer using the Left Hand Curve Rule.
 

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