The figure below shows a long conducting coaxial cable and gives its radii (R1=0.2m, R2=0.59m, R3=1.18m). The inner cable has a uniform current density of J=118A/m2, and the outer cable carries a current I=24A flowing in opposite direction. Assume that the currents in each wire is uniformly distributed over its cross section. Determine the magnitude of the magnetic field in terms of at a distance r=0.85m from the center of the cable. Express your answer using two decimal places.
The figure below shows a long conducting coaxial cable and gives its radii (R1=0.2m, R2=0.59m, R3=1.18m). The inner cable has a uniform current density of J=118A/m2, and the outer cable carries a current I=24A flowing in opposite direction. Assume that the currents in each wire is uniformly distributed over its cross section. Determine the magnitude of the magnetic field in terms of at a distance r=0.85m from the center of the cable. Express your answer using two decimal places.
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The figure below shows a long conducting coaxial cable and gives its radii (R1=0.2m, R2=0.59m, R3=1.18m). The inner cable has a uniform current density of J=118A/m2, and the outer cable carries a current I=24A flowing in opposite direction. Assume that the currents in each wire is uniformly distributed over its cross section. Determine the magnitude of the magnetic field in terms of at a distance r=0.85m from the center of the cable. Express your answer using two decimal places.
Transcribed Image Text:The figure below shows a long conducting coaxial cable and gives its radii (R1=0.2m, R2=0.59m, R3=1.18m). The inner cable has a uniform current
density of J=118A/m2, and the outer cable carries a current l=24A flowing in opposite direction. Assume that the currents in each wire is uniformly
distributed over its cross section. Determine the magnitude of the magnetic field in terms of Hə at a distance r=0.85m from the center of the
cable. Express your answer using two decimal places.
R2 R
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