Suppose there is a configuration with coaxial current carrying cylindrical (infinitely long) conducting tubes as shown with one having radius a and the other having radius b. The currents on each of the tubes is I in the directions shown. There is an insulating material of permeability µ between the tubes. a) What is the magnetic field B between the tubes? b) What is the bound bulk current J, between the tubes (away from the boundaries at s = a and s = b)?

Suppose there is a configuration with coaxial current carrying cylindrical (infinitely long) conducting tubes as shown with one having radius a and the other having radius b. The currents on each of the tubes is I in the directions shown. There is an insulating material of permeability µ between the tubes. a) What is the magnetic field B between the tubes? b) What is the bound bulk current J, between the tubes (away from the boundaries at s = a and s = b)?

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Question

Suppose there is a configuration with coaxial current carrying cylindrical (infinitely long) conducting tubes as shown
with one having radius a and the other having radius b. The currents on each of the tubes is I in the directions shown. There is an
insulating material of permeability µ between the tubes.
a) What is the magnetic field B between the tubes?
b) What is the bound bulk current J, between the tubes (away from the boundaries at s = a and s = b)?

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