R2 R3 lo An image taken from the cross-sectional area of a coaxial cable consisting of a solid inner conductor of Radius R, = 4cm surrounded by a concentric cylindrical tube of inner radius R, = 8cm and outer radius R3 = 10cmis given in the figure. The inner conductor has the current density J = ar? and the total current flows in this cylinder is lo = 100A. Here,a is a constant and r is the radial di stance measured from the center. The outer cylindrical condhuctor carries a constant current lo = 100A distributed uniformly across its cross section. Total curent lo flows in opposite directions in both conductors. What is the magnitude of the magnetic field B at a distance r, = 2 cm and B, at a dist ance r, = 9 cm ? (H, = 4nx10-7T.m/A, take the sign of the current coming out of the page as positive).
R2 R3 lo An image taken from the cross-sectional area of a coaxial cable consisting of a solid inner conductor of Radius R, = 4cm surrounded by a concentric cylindrical tube of inner radius R, = 8cm and outer radius R3 = 10cmis given in the figure. The inner conductor has the current density J = ar? and the total current flows in this cylinder is lo = 100A. Here,a is a constant and r is the radial di stance measured from the center. The outer cylindrical condhuctor carries a constant current lo = 100A distributed uniformly across its cross section. Total curent lo flows in opposite directions in both conductors. What is the magnitude of the magnetic field B at a distance r, = 2 cm and B, at a dist ance r, = 9 cm ? (H, = 4nx10-7T.m/A, take the sign of the current coming out of the page as positive).
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Question
![R2
ol Paneli
R3 lo
R1
slerim
ntilar
An image taken from the cross-sectional area of a coaxial cable consisting of a
solid inner conductor of Radius R, = 4cm surrounded by a concentric cylindrical
tube of inner radius R2
The inner conductor has the current density ] = ar² and the total curret flows
in this cylinder is lo
measured from the center. The outer cylindrical conchuctor carries a constant
= 8cm and out er radius R
10cm is given in the figure.
%3D
100A. Here,a is a constant and r is the radial di stance
cuтent lo
100A distributed uniformly across its cross section. Total current lo
%3D
flows in opposite directions in both conductors. What is the magnitude of the
magnetic field B at a distance r, = 2 cm and B2 at a distance r, = 9 cm ?
(Ho = 4TX10-"T.m/A, take the sign of the current coming out of the page as
positive).
%3D
%3D
O Aramak için buraya yazın
a
II](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9aeb0fee-b187-4eea-9693-c6c5985ead2f%2F8c89db86-106b-4cda-a927-86c14c7d22ed%2F9yt3rrf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:R2
ol Paneli
R3 lo
R1
slerim
ntilar
An image taken from the cross-sectional area of a coaxial cable consisting of a
solid inner conductor of Radius R, = 4cm surrounded by a concentric cylindrical
tube of inner radius R2
The inner conductor has the current density ] = ar² and the total curret flows
in this cylinder is lo
measured from the center. The outer cylindrical conchuctor carries a constant
= 8cm and out er radius R
10cm is given in the figure.
%3D
100A. Here,a is a constant and r is the radial di stance
cuтent lo
100A distributed uniformly across its cross section. Total current lo
%3D
flows in opposite directions in both conductors. What is the magnitude of the
magnetic field B at a distance r, = 2 cm and B2 at a distance r, = 9 cm ?
(Ho = 4TX10-"T.m/A, take the sign of the current coming out of the page as
positive).
%3D
%3D
O Aramak için buraya yazın
a
II
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