College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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What is the minimum capacitance you can achieve by connecting a 9.39 F and a 4.4 F capacitor?
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- Figure shows a parallel-plate capacitor with a plate area A = 7.89 cm² and plate separation d = 4.62 mm. The top half of the gap is filled with material of dielectric constant k₁ 11.0; the bottom half is filled with material of dielectric constant K₂ = 12.0. What is the equivalent capacitance of the system?arrow_forwardConsider the capacitor network. 21.9 µF T44.2 V 1.77 pF 1.4 µF 8.78 µF What is the equivalent capacitance of the network? Answer in units of uF. t Find the charge on the 1.77 µF capacitor to the far left.arrow_forwardCalculate the equivalent capacitance for the configurations Y and Z which are shown below. The values of the capacitances in the figure are in µ F. Then rank X, Y, and Z in order of INCREASING equivalent capacitance. 13.0 10.8 6.3 3.8 37.0 X' Y' Z* Smallest capacitance has rank 1, largest capacitance has rank 3. 1 The rank of X is ... 3 The rank of Y is ... 2 The rank of Z is ... Submit Answer Incorrect. Tries 3/5 Previous Triesarrow_forward
- Four identical 2.5-mF capacitors are connected together electrically. What is the greatest possible capacitance of the combination?arrow_forwardA solid cylindrical conductor of radius 2.1 cm is coaxial with a cylindrical shell of negligible thickness, radius 2.3 cm. Find the capacitance ( in units of nF) of this cylindrical capacitor if its length is 51.8 m. Select one: A. 41.99 B. 21.27 C. 14.56 D. 31.63 E. 47.17arrow_forwardWhat 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 uFarrow_forward
- Q.3: Four capacitors are arranged in the following configuration: the capacitances of capacitors are Ci= 3.0µF, C2= 2.0µF, C3= 1.8µF, C4= 3.0µF. The battery voltage is 12.0V. (a) Calculate the equivalent capacitance of the configuration. (b) How much energy is stored in this capacitor configuration? (c) How much energy is stored in capacitor C1? C1arrow_forwardA spherical capacitor with a 0.600 mm gap between the spheres has a capacitance of 150 pF Part A What is the diameter of the smaller sphere? ΠV ΑΣφ Dymal = Submit Request Answer gap rin Part B What is the diameter of the larger sphere? HV ΑΣφ rout Diere = Submit Request Answerarrow_forwardA cardiac defibrilator is used to shock a heart that is beating erratically. A capacitor in this device is charged to (6.14x10^3) V and stores (2.1900x10^2) J of energy. What is its capacitance? Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 Answerarrow_forward
- Consider the following. (Let C1 = 13.00 µF and C2 = 7.00 µF.) a) Find the equivalent capacitance of the capacitors in the figure. µF(b) Find the charge on each capacitor. on the right 13.00 µF capacitor µC on the left 13.00 µF capacitor µC on the 7.00 µF capacitor µC on the 6.00 µF capacitor µC (c) Find the potential difference across each capacitor. on the right 13.00 µF capacitor V on the left 13.00 µF capacitor V on the 7.00 µF capacitor V on the 6.00 µF capacitorarrow_forwardThe given pair of capacitors in the figure below is fully charged by a 14.0-v battery. The battery is disconnected and the circuit closed. 3.00 µF 2.00 µF 500 N (a) After 1.50 ms, how much charge remains on the 3.00-µF capacitor? (b) After 1.50 ms, how much charge remains on the 2.00-µF capacitor? (c) After 1.50 ms, what is the current in the resistor? Need Help? Read Itarrow_forwardA 4.50 pF capacitor is connected in series with a 3.00 pF capacitor and a 350 V potential difference is applied across the pair. (a) What is the charge on each capacitor (in nC)? 4.50 pF саpасitor 6.3e-10 X nC 3.00 pF сараcitor 6.3е-10 X nC (b) What is the voltage across each capacitor (in V)? 4.50 pF сараcitor V 3.00 pF сараcitor Varrow_forward
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