10 Q.4) Given the potential V = sine coso, R² a) Find the electric flux density Dat (2, π/2, 0). b) Calculate the work done in moving a 10 µC charge from point A(1, 30°, 120°) to point B(4, 90°, 60°). [Note: Coordinates are given as (R, 0, $)]
10 Q.4) Given the potential V = sine coso, R² a) Find the electric flux density Dat (2, π/2, 0). b) Calculate the work done in moving a 10 µC charge from point A(1, 30°, 120°) to point B(4, 90°, 60°). [Note: Coordinates are given as (R, 0, $)]
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![10
Q.4) Given the potential V = sine coso,
R²
a) Find the electric flux density D at (2, π/2, 0).
b) Calculate the work done in moving a 10 µC charge from point A(1, 30°, 120°) to
point B(4, 90°, 60°). [Note: Coordinates are given as (R, 0, 0)]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb42373c1-1a13-480b-8fa8-c5f396e48c85%2F0956318c-9eb4-42c9-94d2-1faf0f58ca7a%2F0o85lxg_processed.png&w=3840&q=75)
Transcribed Image Text:10
Q.4) Given the potential V = sine coso,
R²
a) Find the electric flux density D at (2, π/2, 0).
b) Calculate the work done in moving a 10 µC charge from point A(1, 30°, 120°) to
point B(4, 90°, 60°). [Note: Coordinates are given as (R, 0, 0)]
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