Suppose you have a 9.30 V battery, a 2.35 µF capacitor, and a 7.10 µF capacitor. (a) Find the charge (in C) and energy (in J) stored if the capacitors are connected to the battery in series. X C X J charge energy (b) Do the same for a parallel connection. charge X C energy
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- Suppose you have a 9.00 V battery, a 2.8 μF capacitor, and a 8.65 μF capacitor. Part (a) Find the total charge stored in the system if the capacitors are connected to the battery in series in C. Q = Part (b) Find the energy stored in the system if the capacitors are connected to the battery in series in J. Us = 8.59*10^-5 Part (c) Find the charge if the capacitors are connected to the battery in parallel in C. Q = Part (d) Find the energy stored if the capacitors are connected to the battery in parallel in J. Up =Two capacitors with capacitances of 1.5 μF and 0.25 μF, respectively, are connected in parallel. The system is connected to a 40-V battery. What electrical potential energy is stored in the 1.5-μF capacitor? O 1.1E-4 J O2.0E-4 J O 1.2E-3 J 1.1E-3 JSuppose you have a 9.00 V battery, a 2.8 μF capacitor, and a 7.45 μF capacitor. a) Find the total charge stored in the system if the capacitors are connected to the battery in series in C. b) Find the energy stored in the system if the capacitors are connected to the battery in series in J. c) Find the charge if the capacitors are connected to the battery in parallel in C. d) Find the energy stored if the capacitors are connected to the battery in parallel in J.
- Suppose you have a 9.00 V battery, a 3.8 μF capacitor, and a 9.05 μF capacitor. (a) Find the total charge stored in the system if the capacitors are connected to the battery in series in C. (b) Find the energy stored in the system if the capacitors are connected to the battery in series in J. (c) Find the charge if the capacitors are connected to the battery in parallel in C. (d) Find the energy stored if the capacitors are connected to the battery in parallel in J.A 80-pF capacitor and a 320-pF capacitor are both charged to 1.70 kV. They are then disconnected from the voltage source and are connected together, positive plate to negative plate and negative plate to positive plate. (a) Find the resulting potential difference across each capacitor. kV V 80 pF kV V320 pF (b) Find the energy lost when the connections are made.1
- Suppose you have a 9.00 V battery, a 3.2uF capacitor, and a 7.45 uF capacitor. a) Find the total charge stored in the system if the capacitors are connected to the battery in series in C. b) Find the energy stored in the system if the capacitors are connected to the battery in series in J. c) Find the charge if the capacitors are connected to the battery in parallel in C. d) Find the energy stored if the capacitors are connected to the battery in parallel in J.You 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 = FConsider the figure below. C2 0.300 µF (a) Find the charge stored on each capacitor in the figure shown above (C, = 14.9 µF, C, = 9.06 µF, and C, = 0.300 µF) when a 1.74 V battery is connected to the combination. Q1 = Q2 = Q3 = (b) What energy is stored in each capacitor? E, = E2 = E =
- Suppose you have a 9.10 V battery, a 2.10 µF capacitor, and a 7.15 µF capacitor. (a) Find the charge (in C) and energy (in J) stored if the capacitors are connected to the battery in series. charge energy (b) Do the same for a parallel connection. charge energy100 There is a system with four capacitors connected, as shown in Figure P25.10. (a) Calculate the equivalent capacity between points a and b. (b) Find the charge amount of each capacitor when the potential difference AV between points a and bis 15.0 V. 11 (13). Find the equivalent capacitance a 15.0μF 3.00 μF 120.0 με 16: HH 6.00 με Figure P25.10If 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?