What is the capacitance of a parallel plate capacitor with metal plates, each of area 1.00 m², separated by 2.00 mm? What charge is stored in this capacitor if a voltage of 3.00 × 103 V is applied to it?
What is the capacitance of a parallel plate capacitor with metal plates, each of area 1.00 m², separated by 2.00 mm? What charge is stored in this capacitor if a voltage of 3.00 × 103 V is applied to it?
College Physics
10th Edition
ISBN:9781285737027
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter16: Electrical Energy And Capacitance
Section: Chapter Questions
Problem 56P: A parallel-plate capacitor has plates of area A = 7.00 102 m2 separated by distance d = 2.00 104...
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Direction: Solve the problems systematically
![1. What is the capacitance of a parallel plate capacitor with metal plates,
each of area 1.00 m², separated by 2.00 mm? What charge is stored in
this capacitor if a voltage of 3.00 × 103 V is applied to it?
2. The capacitors have values C1 = 2.0 µF and C2 = 4.0 µF, C3 = 5.0 µF
C4 = 7.0 µF and the potential difference across the battery is 9.0 V.
Assume that the capacitors are connected in series.
a) Find the equivalent capacitance of the circuit.
b) Solve for the potential difference across each capacitors.
3. Given the same problem in #2. Assume that the capacitors are
connected in parallel.
a) Find the equivalent capacitance of the circuit.
b) Solve for the charge across each capacitors.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F687fb216-566d-4f19-bdd5-010bb2cc3a39%2F23acaf29-020f-4bc8-9ab3-509ebdb1a3b1%2F2ilsz9r_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1. What is the capacitance of a parallel plate capacitor with metal plates,
each of area 1.00 m², separated by 2.00 mm? What charge is stored in
this capacitor if a voltage of 3.00 × 103 V is applied to it?
2. The capacitors have values C1 = 2.0 µF and C2 = 4.0 µF, C3 = 5.0 µF
C4 = 7.0 µF and the potential difference across the battery is 9.0 V.
Assume that the capacitors are connected in series.
a) Find the equivalent capacitance of the circuit.
b) Solve for the potential difference across each capacitors.
3. Given the same problem in #2. Assume that the capacitors are
connected in parallel.
a) Find the equivalent capacitance of the circuit.
b) Solve for the charge across each capacitors.
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