6. Solve example 4-9 but assume the top and bottom cylinders have uniform charge densities as shown below Ps b -Ps Figure 1: Problem 6 EXAMPLE 4-9 An infinitely long, thin, conducting circular tube of radius b is split in two halves. The upper half is kept at a potential V = V, and the lower half at V = - Vo. Determine the potential distribution both inside and outside the tube. Please show how ps and -ps is used in the answer.
6. Solve example 4-9 but assume the top and bottom cylinders have uniform charge densities as shown below Ps b -Ps Figure 1: Problem 6 EXAMPLE 4-9 An infinitely long, thin, conducting circular tube of radius b is split in two halves. The upper half is kept at a potential V = V, and the lower half at V = - Vo. Determine the potential distribution both inside and outside the tube. Please show how ps and -ps is used in the answer.
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![6. Solve example 4-9 but assume the top and bottom cylinders have uniform
charge densities as shown below
Ps,
b
-Ps
Figure 1: Problem 6
EXAMPLE 4-9 An infinitely long, thin, conducting circular tube of radius b is split
in two halves. The upper half is kept at a potential V = V, and the lower half at
V = - Vo. Determine the potential distribution both inside and outside the tube.
Please show how ps and -ps is used in the answer.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd0e05b29-8e50-4632-9a18-e0e63eb78bd8%2F8bcd0ab1-8105-43e2-9cae-58c687caa6e8%2Fa8r5ljsh_processed.jpeg&w=3840&q=75)
Transcribed Image Text:6. Solve example 4-9 but assume the top and bottom cylinders have uniform
charge densities as shown below
Ps,
b
-Ps
Figure 1: Problem 6
EXAMPLE 4-9 An infinitely long, thin, conducting circular tube of radius b is split
in two halves. The upper half is kept at a potential V = V, and the lower half at
V = - Vo. Determine the potential distribution both inside and outside the tube.
Please show how ps and -ps is used in the answer.
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