An infinite length cylinder of radius "b" extending along the Z-axis and carrying a uniform volumetric current density / = az],has a cylindrical cavity of radius "a = b/2" that is made along the whole length of the cylinder as shown in the fig. %3D a) find the magnetic flux density inside the cavit b) find the magnetic field intensity on the x-axis
An infinite length cylinder of radius "b" extending along the Z-axis and carrying a uniform volumetric current density / = az],has a cylindrical cavity of radius "a = b/2" that is made along the whole length of the cylinder as shown in the fig. %3D a) find the magnetic flux density inside the cavit b) find the magnetic field intensity on the x-axis
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![An infinite length cylinder of radius "b" extending along the Z-axis and
carrying a uniform volumetric current density / = az],has a cylindrical
cavity of radius "a = b/2" that is made along the whole length of the
cylinder as shown in the fig.
%3D
a) find the magnetic flux density inside the cavit
b) find the magnetic field intensity on the x-axis](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F611075ee-7abe-42d0-8c4c-0ff1f0ae48e5%2F7957a400-db6e-4644-9d1f-c5379cff9540%2Fcn9ak8n.png&w=3840&q=75)
Transcribed Image Text:An infinite length cylinder of radius "b" extending along the Z-axis and
carrying a uniform volumetric current density / = az],has a cylindrical
cavity of radius "a = b/2" that is made along the whole length of the
cylinder as shown in the fig.
%3D
a) find the magnetic flux density inside the cavit
b) find the magnetic field intensity on the x-axis
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