A capacitor is formed from a pair of long concentric cylinders with radius 4 mm and 8 mm, and with a dielectric of relative permittivity of 5 in between the conducting cylinders. The voltage at the inner cylinder is 90 V and the voltage at the outer cylinder is 0 V. a) Calculate V, E, and D between the two conductors at radius 6 mm. b) Calculate ρs, the surface charge density in Coulombs/m2 on each cylinder. Please solve for Ps, for each cylinder. Thank you very much. Please be careful while inserting the values.
A capacitor is formed from a pair of long concentric cylinders with radius 4 mm and 8 mm, and with a dielectric of relative permittivity of 5 in between the conducting cylinders. The voltage at the inner cylinder is 90 V and the voltage at the outer cylinder is 0 V. a) Calculate V, E, and D between the two conductors at radius 6 mm. b) Calculate ρs, the surface charge density in Coulombs/m2 on each cylinder. Please solve for Ps, for each cylinder. Thank you very much. Please be careful while inserting the values.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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A capacitor is formed from a pair of long concentric cylinders with radius 4 mm and 8 mm, and with a dielectric of relative permittivity of 5 in between the conducting cylinders. The voltage at the inner cylinder is 90 V and the voltage at the outer cylinder is 0 V.
- a) Calculate V, E, and D between the two conductors at radius 6 mm.
- b) Calculate ρs, the surface charge density in Coulombs/m2 on each cylinder.
- Please solve for Ps, for each cylinder. Thank you very much. Please be careful while inserting the values.
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VIEWStep 2: Calculating the potential at a distance 6mm.
VIEWStep 3: Calculating the electric field
VIEWStep 4: Calculation of the electric flux density
VIEWStep 5: Calculation of the charge density of on each cylinder
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