Charge is distributed on the surface of a sphere of radius R with a density σ(0) = To cos² 0. There are no other charges present. Determine expressions for: A. The potential V(r, 0) outside the sphere (r > R). B. The potential V(r, 0) inside the sphere (r < R).
Charge is distributed on the surface of a sphere of radius R with a density σ(0) = To cos² 0. There are no other charges present. Determine expressions for: A. The potential V(r, 0) outside the sphere (r > R). B. The potential V(r, 0) inside the sphere (r < R).
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![Charge is distributed on the surface of a sphere of radius R with a density σ (0)
are no other charges present. Determine
expressions for:
A. The potential V(r, 0) outside the sphere (r > R).
B. The potential V(r, 0) inside the sphere (r < R).
= 70 cos² 0. There](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd1aad5a6-9ce1-4f7e-a6a1-3c1c419baf8f%2F19c90774-a015-4de8-9aee-df246390034e%2Fhk6dhkf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Charge is distributed on the surface of a sphere of radius R with a density σ (0)
are no other charges present. Determine
expressions for:
A. The potential V(r, 0) outside the sphere (r > R).
B. The potential V(r, 0) inside the sphere (r < R).
= 70 cos² 0. There
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