A 11.8 µF capacitor is charged by a 30.5 V battery through a resistance R. The capacitor reaches a potential difference of 4.00 V a time 3.00 s after charging begins. Find R.
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Q: A 14.5-μF capacitor is charged to a potential of 40.0 V and then discharged through a 65.0 Ω…
A: Given C=14.5μF V=40V R=65 Ω
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- Item 9 A 20.0 µF capacitor is charged to a potential of 50.0 V and then discharged through a 225 2 resistor. Express your answer in milliseconds. ΑΣφ tcharge ms %3D Submit Request Answer Part B How long does it take the capacitor to lose half of its stored energy? Express your answer in milliseconds. ΑΣφ tenergy ms Submit Request AnswerA 1.40E-5F capacitor is charged by a 10.0V battery through a resistance R. The capacitor reaches a potential difference of 4.43V at a time 2.08s after charging begins. Find R.5. A 12.0 V battery and 3 uncharged capacitors сарacitances С1 %3D C2 = 6.00 µF, and C3 µF. The switch is thrown to the left side until capacitor 1 is fully charged. Then the switch is thrown to the right. What is the final charge on (a) capacitor 1, (b) capacitor 2, and (c) of Vo 4.00 µF, C3: = 3.00 %3D capacitor 3?
- The cell membranes of axons, which which are nerve cells in the human body, act as very small capacitors. A membrane is capable of storing 8.443e-9C of charge across a potential difference of 0.061V before discharging a nerve impulse. What is the capacitance of one of these axon membranes (in uF)?blem 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 energy6
- The most common cause of sudden cardiac arrest is ventricular fibrillation, an event in which the heart loses its electrical coordination. The only known cure for ventricular fibrillation is early defibrillation: a carefully timed electrical shock to the myocardium. The principal component of a defibrillator is a capacitor. It is charged by placing the switch in Position C in Figure 1. Rinternal power supply 3000 V O B. 15 A O A. 7.5A OD. 30 A O C. 22.5 A Figure 1 Schematic of a defibrillator The capacitor consists of a pair of metal plates separated by a dielectric. During defibrillation the switch is placed in Position D, discharging the capacitor through paddles pressed against the chest of the patient. Firm force (~100 N) and a conductive gel pad are used to improve the electrical contact between each paddle and the patient's chest. switch For successful defibrillation the current delivered must be maintained for several milliseconds. Because the current in an RC circuit decays…A 10.0 µF capacitor is charged by a 14.0 V battery through a resistance R. The capacitor reaches a potential difference of 4.00 V at a time 3.00 s after charging begins. Find R. k$2 Additional Materials. eBookDon't copy please, just need answer, no explanation.
- A 30 V battery is connected to a series of n capacitors, each of capacitance 3.6 μF. If the total energy stored in the capacitors is 180 μJ, what is n?A 12.0 μF capacitor is charged by a 13.0 V battery through a resistance R. The capacitor reaches a potential difference of 4.00 V at a time 3.00 s after charging begins. Find R. ΚΩProblem 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?