A parallel plate capacitor has plate with area A=0.4m^2 separated by d=0.2mm. The bottom half of the capacitor is empty, and the top half is filled with dielectric of dielectric constant K2=5 . Charges of q=±8μC are on the two plates. a. Determine the electric field strength near the lower plate, and in the dielectric. Evac =? (V/m) Edie =? (V/m) b. Determine the potential difference between the plates. ΔV =? ( V) c. What is the capacitance? C =? (F) d. What electric potential energy is stored in the capacitor? U =? (J)
A parallel plate capacitor has plate with area A=0.4m^2 separated by d=0.2mm. The bottom half of the capacitor is empty, and the top half is filled with dielectric of dielectric constant K2=5 . Charges of q=±8μC are on the two plates. a. Determine the electric field strength near the lower plate, and in the dielectric. Evac =? (V/m) Edie =? (V/m) b. Determine the potential difference between the plates. ΔV =? ( V) c. What is the capacitance? C =? (F) d. What electric potential energy is stored in the capacitor? U =? (J)
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Author:Robert L. Boylestad
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A parallel plate capacitor has plate with area A=0.4m^2 separated by d=0.2mm. The bottom half of the capacitor is empty, and the top half is filled with dielectric of dielectric constant K2=5 . Charges of q=±8μC are on the two plates.
a. Determine the electric field strength near the lower plate, and in the dielectric.
Evac =? (V/m)
Edie =? (V/m)
b. Determine the potential difference between the plates.
ΔV =? ( V)
c. What is the capacitance?
C =? (F)
d. What electric potential energy is stored in the capacitor?
U =? (J)
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