A 14.7 µF capacitor is charged by a 27.0 V battery through a resistance R. The capacitor reaches a potential difference of 4.00 V at 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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- 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…Four capacitors are connected as shown in Figure P26.17. (a) Find the equivalent capacitance between points a and b. (b) Calculate the charge on each capacitor, taking ΔVab= 15VA 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. eBook
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