Two oppositely charged but otherwise identical conducting plates of area 2.50 square centimeters are separated by a dielectric 1.80 millimeters thick, with a dielectric constant of K = 3.60. The resultant electric field in the dielectric is 1.20 x 106 volts per meter. Compute the magnitude of the charge per unit area o on the conducting plate. Express your answer in coulombs per square meter to three significant figures. ΑΣφ ? C/m? Part B Compute the magnitude of the charge per unit area o1 on the surfaces of the dielectric. Express your answer using three significant figures. ? 01 = C/m?

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Two oppositely charged but otherwise identical
conducting plates of area 2.50 square centimeters
are separated by a dielectric 1.80 millimeters thick,
with a dielectric constant of K = 3.60. The
Compute the magnitude of the charge per unit area o on the conducting plate.
Express your answer in coulombs per square meter to three significant figures.
resultant electric field in the dielectric is 1.20 × 106
volts per meter.
V AZO
?
C/m?
Part B
Compute the magnitude of the charge per unit area o1 on the surfaces of the dielectric.
Express your answer using three significant figures.
?
01 =
C/m?
Transcribed Image Text:Two oppositely charged but otherwise identical conducting plates of area 2.50 square centimeters are separated by a dielectric 1.80 millimeters thick, with a dielectric constant of K = 3.60. The Compute the magnitude of the charge per unit area o on the conducting plate. Express your answer in coulombs per square meter to three significant figures. resultant electric field in the dielectric is 1.20 × 106 volts per meter. V AZO ? C/m? Part B Compute the magnitude of the charge per unit area o1 on the surfaces of the dielectric. Express your answer using three significant figures. ? 01 = C/m?
...
Part C
Find the total electric-field energy U stored in the capacitor.
Express your answer in joules to three significant figures.
ΑΣΦ
?
U =
J
Transcribed Image Text:... Part C Find the total electric-field energy U stored in the capacitor. Express your answer in joules to three significant figures. ΑΣΦ ? U = J
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