2) Two parallel-plate capacitors are constructed using dielectric materials with dielectric constants Kj = 3 and K, = 5, as shown in Figure. Parallel-plates have the area A = 0.7 m². The distance is d = 0.05 m. A potential difference of AV = 24 V is applied to the circuit. (a) Find the equivalent capacitance of the system. (b) Find the potential AV1. (8,=8.85×10-12 C²/N×m²)

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2) Two parallel-plate capacitors are constructed using dielectric materials with dielectric constants
K, = 3 and K, = 5, as shown in Figure. Parallel-plates have the area A = 0.7 m². The distance is
d = 0.05 m. A potential difference of AV = 24 V is applied to the circuit.
(a) Find the equivalent capacitance of the system.
(b) Find the potential AV1. (8=8.85×10-12 C²/N×m²)
K1
A/2
AV1
K2
A/2
A
d
K2
K1
A/2
2d/3 d/3
K2
A/2
d
AV = 24 V
Transcribed Image Text:2) Two parallel-plate capacitors are constructed using dielectric materials with dielectric constants K, = 3 and K, = 5, as shown in Figure. Parallel-plates have the area A = 0.7 m². The distance is d = 0.05 m. A potential difference of AV = 24 V is applied to the circuit. (a) Find the equivalent capacitance of the system. (b) Find the potential AV1. (8=8.85×10-12 C²/N×m²) K1 A/2 AV1 K2 A/2 A d K2 K1 A/2 2d/3 d/3 K2 A/2 d AV = 24 V
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