Two capacitors of 1.5 and 0.55 mF, respectively, are connected in series. The system is connected to a 50 V battery. What is the charge accumulated on the 1.5mf capacitor? 102.5 mC 75 mC 50 mC 20.1 mC
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- Two capacitors of 1.5 and 0.55 mF, respectively, are connected in series. The system is connected to a 50 V battery. What is the charge accumulated on the 1.5mf capacitor?
- 102.5 mC
- 75 mC
- 50 mC
- 20.1 mC
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- Two capacitors with capacitances of 1.0 and 0.5 µF, respectively, are connected inparallel. The system is connected to a 100 V battery. What charge accumulates on the 1.0µF capacitor?The network of capacitors shown below are all uncharged when a 448V potential is applied between points A and B with the switch S open. How much energy is stored in the network of capacitors? 2.0 μF 4.0 μF D A S B 4.0 μF 2.0 μF EThree capacitors of 12 μF, 12 μF, and 6.0 uF are connected in series. A 12-V battery is connected to the combination. What is the charge on the 6.0 pF capacitor? 36 MC 4.0 MC Ο 72 μC 360 μC Ο
- 1An engineer has three different capacitors of unknown capacitance. She labels them C₁, C2, and C3. First, she connects C₁ to a battery, and the charge on C₁ is 91 = 32.8 µC. Then, she disconnects and discharges C₁, and connects it in series with C₂. When she connects this series combination of C₂ and C₁ across the battery, the charge on C₁ is 92 22.1 μC. The engineer disconnects the circuit and discharges both capacitors. Next, she connects C3, C₁, and the battery in series, which results in a charge on C₁ of 93 = 25.7 μC. If, after being disconnected and discharged, she connects C₁, C₂, and C3 in series with the battery, what is the charge on C₁ (in µC)? μCYou have two capacitors, one with capacitance 17.7 x 10-6 F and the other of unknown capacitance. You connect the two capacitors in series and apply a voltage of 389 V across the capacitor pair. You discover that, as a result, the unknown capacitor acquires a charge of 0.00141 C. Determine the capacitance C of the unknown capacitor. C = F
- If a voltage source of 24.0 V is connected from top to bottom, what is the charge accumulated on the 3.5 µF capacitor, in µC, when fully charged?An engineer has three different capacitors of unknown capacitance. She labels them C₁, C₂, and C3. First, she connects C₁ to a battery, and the charge on C₁ is q₁ = 32.2 µC. Then, she disconnects and discharges C₁, and connects it in series with C₂. When she connects this series combination of C₂ and C₁ across the battery, the charge on C₁ is 9₂ = 23.6 µC. The engineer disconnects the circuit and discharges both capacitors. Next, she connects C3, C₁, and the battery in series, which results in a charge on C₁ of 93 = 25.4 µC. If, after being disconnected and discharged, she connects C₁, C₂, and C3 in series with the battery, what is the charge on C₁ (in μC)? XGiven a 2.00 μF capacitor, a 7.50 μF capacitor, and a 3.50 V battery, find the charge on each capacitor if you connect them in the following ways. (a) in series across the battery 2.00 μF capacitor μC 7.50 μF capacitor μC (b) in parallel across the battery 2.00 μF capacitor μC 7.50 μF capacitor μC
- Consider four capacitors connected to a 9.0-V battery in the configuration shown in the diagram. The capacitors have the followving capacitances: Cq is 7.4 µF, C2 is 6.4 µF, C3 is 12.4 µF and C4 is 4.1 µF. C1 C3 9.0V C2 C4 (a) Calculate the equivalent capacitance of the configuration shows in the diagram and the total energy stored by the equivalent capacitance. Be sure to explain your reasoning. (b) Find the potential difference across each capacitor and the charge stored on each capacitor. Be sure to explain your reasoning and show your work . Summarize your answers in a table like the one below in your hand-written answer: Capacitance: Potential Difference: Charge C;= AV;= Qı= Cz= AVz= Q²= C3= AV3= Q3= C4= AV== Q«=A parallel combination of a 1.31 µF capacitor and a 2.73 pF capacitor is connected in series to a 4.53 µF capacitor. This three-capacitor combination is connected to a 19.5 V battery. Determine the charge on each capacitor. charge of 4.53 uF capacitor: 0.00003895 C charge of 1.31 µF capacitor: 0.0000096 charge of 2.73 uF capacitor: 0.0000242 CA C2-3-µF and a C3= 9.0-µF capacitor are connected in series, and the series arrangement is connected in parallel to a C1=4 µF capacitor. What is the equivalent capacitance of three capacitors? a V O 16 µF O 13 µF O 38 μF O 3 μF b