An infinitely long cylindrical shell of inner radius a and outer radius b, and of magnetic permeability , is placed in a uniform extermal magnetic flux density Bo which is directed at right angles to the axis of the cylinder. Find the magnetic flux density B outside the cylinder (r>b), inside the cylinder (r
An infinitely long cylindrical shell of inner radius a and outer radius b, and of magnetic permeability , is placed in a uniform extermal magnetic flux density Bo which is directed at right angles to the axis of the cylinder. Find the magnetic flux density B outside the cylinder (r>b), inside the cylinder (r
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![An infinitely long cylindrical shell of inner radius a and outer radius b, and of magnetic permeability , is placed in a uniform extermal
magnetic flux density Bo which is directed at right angles to the axis of the cylinder. Find the magnetic flux density B outside the cylinder
(r>b), inside the cylinder (r<a), and within the shell (a<r<b). [Hint: express the magnetic field H in terms of a scalar potential, and use
separation of variables in cylindrical coordinates.]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff9faf22f-10a8-4cb5-bec9-d63452f6293a%2F1795c58c-fa95-4d5c-8728-fd1a7c3cad0a%2Fvca3vrj.png&w=3840&q=75)
Transcribed Image Text:An infinitely long cylindrical shell of inner radius a and outer radius b, and of magnetic permeability , is placed in a uniform extermal
magnetic flux density Bo which is directed at right angles to the axis of the cylinder. Find the magnetic flux density B outside the cylinder
(r>b), inside the cylinder (r<a), and within the shell (a<r<b). [Hint: express the magnetic field H in terms of a scalar potential, and use
separation of variables in cylindrical coordinates.]
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