Answer to Question #326648 in Physics for Robert

Question #326648

1. A Cylindrical capacitor having a length of 8 cm is made of two concentric rings with an inner radius as 3 cm and outer radius as 6 cm. Find the capacitance of the capacitor.

2. A parallel-plate capacitor is filled with polystyrene of 0.0002 m thickness. Find the plate area if the new capacitance after the insertion is 3.4 µF.

Expert's answer

1. The capacitance of a cylindrical capacitor is given as follows:

"C = \\dfrac{2\\pi \\epsilon_0 L}{\\ln(r_2\/r_1)}"

where "L=8cm = 0.08m", "r_1 = 0.03m, r_2 = 0.06m" and "\\epsilon_0 \\approx 8.85\\times 10^{-12} F\/m" is vacuum permittivity. Thus, obtain:

"C = \\dfrac{2\\pi \\cdot 8.85\\times 10^{-12}\\cdot 0.08}{\\ln(0.06\/0.03)} \\approx 6.4\\times 10^{-12}F"

2. The capacitance of a parallel plate capacitor is:

"C=\\dfrac{\\epsilon_0 \\epsilon A}{d}"

where "A" is the plate area, "\\epsilon =2.55" is the dielectric constant of polystyrene, and "d = 0.0002 m" is the distance between plates. Expressing "A", get:

"A = \\dfrac{dC}{\\epsilon_0 \\epsilon} =\\dfrac{0.0002m\\cdot 3.4\\times10^{-6}F }{8.85\\times 10^{-12}F\/m\\cdot 2.55} \\approx 30m^2"

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Answer to Question #326648 in Physics for Robert

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