(a) what voltage (in kV) must be applied to the 8.00 μF capacitor of a heart...
(a) What voltage (in kV) must be applied to the 12.0 μF capacitor of a heart defibrillator to store 450 〕 in it? kV (b) Find the amount (in C) of stored charge.
What is the energy stored in the 17.5 μF capacitor of a heart defibrillator charged to 7.25 × 103 V? Find the amount of charge stored on the capacitor.
What charge is stored in a 100 μF capacitor when 120 V is applied to it? Find the charge stores when 5.50 V is applied to an 8.00 pF capacitor. Calculate the voltage applied to a 2.00 μF capacitor when it holds 3.10 μC charge.
PLEASE HELP AND EXPLAIN e.In open heart surgery, a much smaller amount of energy will defibrillate the heart. Heart defibrillators store 38 J of energy and the voltage is applied to a 7.3 μFcapacitor. Find the amount of stored charge. Give answer in terms of mC. d.An electrostatic paint sprayer has a potential of 25.0 kV that repels paint droplets onto a grounded object. What charge must a 0.8 mg drop of paint have to arrive at the object with...
A defibrillator containing a 14.2 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 14.5 kV across its plates. How much energy is released into the patient?
A defibrillator containing a 18.2 ?F18.2 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 18.5 kV18.5 kV across its plates. How much energy is released into the patient? energy:
What voltage must be applied to an 7 nF capacitor to store 0.39 mC of charge? Give answer in terms of kV.
What is the energy stored in the 11.5 ?F capacitor of a heart defibrillator charged to 9750 V? stored energy: J Find the amount of charge stored on the capacitor. stored charge: C
A 11.6 μF capacitor in a heart defibrillator unit is charged fully by a 12000 V power supply. Each capacitor plate is connected to the chest of a patient by wires and flat "paddles," one on either side of the heart. The energy stored in the capacitor is delivered through an RC circuit, where R is the resistance of the body between the two paddles. Data indicate that it takes 76.3 ms for the voltage to drop to 20.5 V...
a) What is the energy (in J) stored in the 23.0 µF capacitor of a heart defibrillator charged to 8.90 ✕ 103 V? J (b) Find the amount of stored charge (in mC). mC