Consider an infinitely-large-cylindrical conductor along the z-axis, with a radius of a carrying a current density of J = J₁ exp(-ar) k. a) Use Ampere's Law and derive an expression for the magnetic field as a function of radial distance r inside the cylinder r
Consider an infinitely-large-cylindrical conductor along the z-axis, with a radius of a carrying a current density of J = J₁ exp(-ar) k. a) Use Ampere's Law and derive an expression for the magnetic field as a function of radial distance r inside the cylinder r
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can anyone answer this please I dont know what im doing wrong
![Consider an infinitely-large-cylindrical conductor along the z-axis, with a radius of a carrying a
current density of J= Jo exp(-ar) k.
a) Use Ampere's Law and derive an expression for the magnetic field as a function of radial
distance r inside the cylinder r < a.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe8acdd0b-a22b-47a7-80cf-5c140dd58141%2F9e03ac43-2ba8-432c-bcf1-aa457a2bcf70%2Flt1h55rh_processed.png&w=3840&q=75)
Transcribed Image Text:Consider an infinitely-large-cylindrical conductor along the z-axis, with a radius of a carrying a
current density of J= Jo exp(-ar) k.
a) Use Ampere's Law and derive an expression for the magnetic field as a function of radial
distance r inside the cylinder r < a.
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