Use the worked example above to help you solve this problem. A parallel-plate capacitor has an area A = 1.50 x 10-4 m² and a plate separation d = 1.30 x 10-³ m. (a) Find its capacitance. (b) How much charge is on the positive plate if the capacitor is connected to a 3.00 V battery? (c) Calculate the charge density on the positive plate, assuming the density is uniform. C/m² (d) Calculate the magnitude of the electric field between the plates. V/m Two plates, each of area 2.60 x 10-4 m², are used to construct a parallel-plate capacitor with capacitance 1.00 pF. (a) Find the necessary separation distance. d = m (b) If the positive plate is to hold a charge of 5.50 x 10-12 C, find the charge density. 0 = C/m² (c) Find the electric field between the plates. E = N/C (d) What voltage battery should be attached to the plate to obtain the preceding results? V = V

College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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Use the worked example above to help you solve this problem. A parallel-plate capacitor has an area
A = 1.50 x 104 m² and a plate separation d = 1.30 × 10-³ m
m.
(a) Find its capacitance.
F
(b) How much charge is on the positive plate if the capacitor is connected to a 3.00 V battery?
C
(c) Calculate the charge density on the positive plate, assuming the density is uniform.
C/m²
(d) Calculate the magnitude of the electric field between the plates.
V/m
Two plates, each of area 2.60 × 10-4 m², are used to construct a parallel-plate capacitor with capacitance
1.00 pF.
(a) Find the necessary separation distance.
d =
m
(b) If the positive plate is to hold a charge of 5.50 x 10-12 C, find the charge density.
C/m²
0 =
(c) Find the electric field between the plates.
E =
N/C
(d) What voltage battery should be attached to the plate to obtain the preceding results?
V =
Transcribed Image Text:Use the worked example above to help you solve this problem. A parallel-plate capacitor has an area A = 1.50 x 104 m² and a plate separation d = 1.30 × 10-³ m m. (a) Find its capacitance. F (b) How much charge is on the positive plate if the capacitor is connected to a 3.00 V battery? C (c) Calculate the charge density on the positive plate, assuming the density is uniform. C/m² (d) Calculate the magnitude of the electric field between the plates. V/m Two plates, each of area 2.60 × 10-4 m², are used to construct a parallel-plate capacitor with capacitance 1.00 pF. (a) Find the necessary separation distance. d = m (b) If the positive plate is to hold a charge of 5.50 x 10-12 C, find the charge density. C/m² 0 = (c) Find the electric field between the plates. E = N/C (d) What voltage battery should be attached to the plate to obtain the preceding results? V =
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