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Q: In the figure below, each capacitor has capacitance of 8.95 μF and Vab=+30.5V. C₁ C₂₁₂ b C₂ C₂
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- The capacitance of a parallel-plate capacitor can be increased by: O increasing the charge O decreasing the charge O increasing the plate separation O decreasing the plate separation O decreasing the plate areaA parallel-plate capacitor has a capacitance of 10 mF and is charged with a 20 V power supply. The power supply is then removed and a dielectric of dielectric constant 4 is used to fill the space between the plates. The voltage now across the capacitor is O 5 V. O 80 V. O zero. O 20 V. О 10 V.What total capacitances (in uF) can you make by connecting a 5.60 mF and an 8.90 MF capacitor together? smaller value uF larger value uF
- In the figure (Figure 1), each capacitor has 5.00 μF and Vah 34.0 V Figure a b C₁ C₂ C₂ C₁ d Part A Calculate the charge on capacitor C₁ 17 ΑΣΦΑ 4 Q₁ = Submit Part B Calculate the potential difference across capacitor C₁- VG ΑΣΦ V₁ = Submit ▾ Part C Q₂- Calculate the charge on capacitor C₂. - ΑΣΦ ← A Submit Request Answer Y Part D Request Answer V₂= Request Answer Calculate the potential difference across capacitor C₂ [35] ΑΣΦ + C Submit Request Answer EXO O ? ? ? ? C V C P Pearson Copyright © 2023 Pearson Education Inc. All rights reserved. Terms of Use | Privacy Policy | Permissions 1 Contact Us |You have a capacitor made of two sheets of foil of area 2.7 cm2 separated by a distance 0.5 mm. a) what is the capacitance (in pF(10-12F)) of this capacitor? b) what is the voltage across the capacitor if 7 x 10-12 C is stored? c) how much energy is stored in the capacitor?First box choices are 4, 3, 6, 1, 2 (V) the second box choices are 1, 8, 3, 1.5, 6 (nJ) and the third box pick from I-V
- Given a 10 pF air-filled capacitor, you are asked to convert it to a capacitor that can store up to 8.3 µJ with a maximum potential difference of 662 V. What must be the dielectric constant of the material that you should you use to fill the gap in the air capacitor if you do not allow for a margin of error? Number Units(#565957-34) (Energy in Capacitor} Consider a round parallel plate capacitor consisting of two circular metal plates of radius, R = 1.0 cm, separated by d = 150 µm of air. The capacitor is connected to a potential source, as shown in the figure below. F Image size: S M L MaxA capacitor is designed as shown in Figure a. Calculate the magnitude of capacitance using the value A = 1 cm2 , d = 2 mm, κ1 = 4.9, κ2 = 5.6, and κ3 = 2.1 b. Calculate stored energy
- 2) The capacitances are C₁ = 1.0 mF and C₂ = 3.0 mF, and both capacitors are charged to a potential difference of V = 100 V but with opposite polarity as shown. Switches S₁ and S₂ are now closed. a) What is now the potential difference between points a and b? b) What now is the charge on each capacitor? G a Sqc. Charge on C₂ (in nC) = Submit Answer Incorrect. Tries 4/10 Previous Tries d. Voltage across C₂ (in V) = Submit Answer Tries 0/10 e. Charge on C3 (in nC) = Submit Answer Tries 0/10 f. Voltage across C3 (in V) =