Given cylindrical capacitor of length = 61.4044 m where the radius of the inner plate is R₁ = 6.2696 m and the outer plate is R2 = 40.7022 m. The capacitor is charged with charge Q = 3 × 10-4 C Three cylindrical conductors of width d= 0.56 m are inserted into the capacitor: Two cylindrical conductors inserted concentrically in between the capacitor plates and the third conductor is inserted concentrically inside the first plate, as seen in the figure below: Top view (a) R₂ Given that a = 3.2696 m b = 11.2696 m c = 14.2696 m How much energy (in Joule) is lost in the process? Top view (b)

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Given cylindrical capacitor of length = 61.4044 m where the radius of the inner plate is
R₁ = 6.2696 m and the outer plate is R2 = 40.7022 m.
The capacitor is charged with charge Q = 3 × 10-4 C
Three cylindrical conductors of width d= 0.56 m are inserted into the capacitor: Two
cylindrical conductors inserted concentrically in between the capacitor plates and the third
conductor is inserted concentrically inside the first plate, as seen in the figure below:
Top view (a)
R₂
Given that
a = 3.2696 m
b = 11.2696 m
c = 14.2696 m
How much energy (in Joule) is lost in the process?
Top view (b)
Transcribed Image Text:Given cylindrical capacitor of length = 61.4044 m where the radius of the inner plate is R₁ = 6.2696 m and the outer plate is R2 = 40.7022 m. The capacitor is charged with charge Q = 3 × 10-4 C Three cylindrical conductors of width d= 0.56 m are inserted into the capacitor: Two cylindrical conductors inserted concentrically in between the capacitor plates and the third conductor is inserted concentrically inside the first plate, as seen in the figure below: Top view (a) R₂ Given that a = 3.2696 m b = 11.2696 m c = 14.2696 m How much energy (in Joule) is lost in the process? Top view (b)
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