5. A 2.00 Farad capacitor, an 8.00 Q resistor and a 24.0 V battery are connected in series with a switch. The capacitor is initially uncharged. How long after the switch is closed (in seconds) does the charge on the capacitor reach one-fourth of its maximum value? (A) 3.50 (B) 4.60 (C) 2.98 (D) 7.21 (E) 6.43 (F) 10.5
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- Problem 4. A 12.0 µF capacitor is charged to a potential of 50.0 V and then discharged through a 175 resistor. (a)How long does it take the capacitor to lose 80% of its initial charge.(b) How long does it take the capacitor to lose 80% of its initial stored energy?3. A 3.00 - uF capacitor and a 6.00 - µF capacitor are discharged and then connected in series, and the series combination is then connected in parallel with an 8.00 - µF capacitor. Diagram this combination. What is the equivalent capacitance of this combination?A defibrillator containing a 17.7 µF capacitor is used to shock the heart of a patient by holding it to the patient's chest. Just prior to discharging, the capacitor has a voltage of 12.5 kV across its plates. How much energy is released into the patient? energy: 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. V 80 pF = 1.02 kV V 320 pF = 1.02 kV (b) Find the energy lost when the connections are made. 3.7*10**6A defibrillator containing a 16.7 µF capacitor is used to shock the heart of a patient by holding it to the patient's chest. Just prior to discharging, the capacitor has a voltage of 11.5 kV across its plates. How much energy is released into the patient? energy: JThe circuit in the figure below has been connected for a long time. Let R, 8.80 N and R, 3.80 Q. 1.00 N 1.00 µF 10.0 V R2 2.00 N (a) What is the potential difference across the capacitor? V (b) If the battery is disconnected from the circuit, over what time interval does the capacitor discharge to one-tenth its initial voltage? us
- 1A defibrillator containing a 30.2 μF capacitor is used to shock the heart of a patient by holding it to the patient's chest. Just prior to discharging, the capacitor has a voltage of 20.5 kV across its plates. How much energy is released into the patient?A rectangular circuit contains a battery and four capacitors. A 24.0 V battery is on its left side, where the positive terminal is above the negative terminal. Its right side splits into two parallel vertical branches below the top right corner of the circuit, where there is a 1.00 µF capacitor on the left branch and a 5.00 µF capacitor on the right branch. The branches recombine, the side continues down, and then splits again into two parallel vertical branches. There is an 8.00 µF capacitor on the left branch and a 4.00 µF capacitor on the right branch. These branches then recombine and the side continues down to reach the bottom right corner of the circuit. 1.0-µF capacitor 16 µC 5.0-µF capacitor 80 µC 8.0-µF capacitor 64 µC 4.0-µF capacitor 32 µC I have the answer but can you please show me the work step by step. I cant understand the last experts hand writing. Thank you
- A 2.33-UF and a 5.17-UF capacitor are connected to a 69.3-V battery. What is the total charge supplied to the capacitors when they are wired (a) in parallel and (b) in series with each other? (a) Number Units 5.19e-4 (b) Number 4.32e-5 Units CIn the figure below, capacitor 1 (C₁ 29.0 μF) initially has a potential difference of 59.0 V and capacitor 2 (C₂ = 6.00 μF) has none. The switches are then closed simultaneously. C₁ = = C₂ (a) Find the final charge on each capacitor after a long time has passed. Q1 C с (b) Calculate the percentage of the initial stored energy that was lost when the switches were closed. %Figure given below shows capacitor 1 (C, = 8.00 µF), capacitor 2 (C2 = 6.00 µF), and capacitor 3 (Cz = 8.00 µF) connected to a 12.0 V battery. When switch S is closed so as to connect uncharged capacitor 4 (C4 = 6.00 µF), how much charge passes through point P from the battery.