Magnetic field between two infinit planes.

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SUMMARY

The discussion focuses on calculating the magnetic field between two infinite charge-carrying plates positioned at a distance of (d/2) from the x-y plane, with a current density defined as K=kx^. The user initially employed an Amperian loop to determine the magnetic field contributions from each plate and is considering the effectiveness of using boundary conditions instead. A consensus suggests that if the currents in both plates are equal, the magnetic field (B) between them should indeed be zero.

PREREQUISITES
  • Understanding of Ampère's Law and Amperian loops
  • Familiarity with magnetic fields generated by current-carrying conductors
  • Knowledge of boundary conditions in electromagnetic theory
  • Basic concepts of charge distribution and current density
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  • Study the application of Ampère's Law in different geometries
  • Research boundary conditions in electromagnetic fields
  • Explore the implications of equal current densities on magnetic fields
  • Learn about the superposition principle in electromagnetic theory
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Physics students, electrical engineers, and anyone studying electromagnetic fields and their applications in charge distribution scenarios.

sleventh
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i am to find the magnetic field between two infinite charge carrying plates, both a distance (d/2) from the x-y plane. current K=kx^. what i did was found the magnetic field of each plane with an amperian loop then added the found values. I am now wondering if it would have been better to use boundary conditions or if that would even work. Thank you very much for the help.
 
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Loop sounds the easiest. Though if the current the same in both plates then b should be zero between them.
 

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