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You have a 3000-Ohm resistor, a 10-mF capacitor, and a 100-V battery. Assume the battery is...
You have a 3000-Ohm resistor, a 10-mF capacitor, and a 100-V battery. Assume the battery is ideal, and that the capacitor is initially uncharged. You connect the battery, resistor and capacitor in series and complete the circuit. forming a loop. a) How much time passes before the capacitor reaches 2/3 of it's maximum charge (b) What is the magnitude of the current when the capacitor is at 2/3 max charge? (c.) How much charge is on the capacitor 10 seconds...
You have a 3000 ohm resistor, a 10 mF capacitor, and a 100V battery. Assume the battery is ideal and that the capacitor is initially uncharged. You connect the battery, resistor, and capacitor in series and complete the circuit, forming a loop. A) How much time passes before the capacitor reaches 2/3 of its maximum charge? B) What is the magnitude of the current when the capacitor is at 2/3 maximum charge? C) How much charge is on the capacitor...
Q5 - Assume the baɛɛery is ideal, and that the capacitor is initially Vicharged You have a 3000 -ohm resistor, a 10-mF Capacírur, and a 100-V battery You connect the battery resiston and capacitor in Series, and complece Q5 the cirde forming a loop, A How much time passes before the capacitor reaches 2/3 of max cheet? Blwhat is the magnitude of the current when the capacitor is at 213 ] How much charge is on the capacitor 10 seconds...
A 1.42 mF capacitor is initially uncharged. It is connected in series with a 4.968 kΩ resistor. The combination is then connected to a 14.5 V ideal battery. How much energy will be stored in the capacitor at the moment when the current through the circuit is 0.68588969404187 mA?
A 6.0 V battery, a 220 W resistor, a 680 µF capacitor (initially uncharged), and a switch (initially open) are all connected in series, forming a loop. At t = 0 the switch is closed. (a) Find the initial current in the loop. (b) Find the charge on the capacitor at t = 0.100 s. (c) At what point in time will the voltage across the resistor equal 5.0 V? (d) What will be the maximum energy stored in the...
2. (10 pts) Calculate the current through the 4 ohm resistor in the circuit if points (a) and (b) connect to a 12 Volt battery 24 3. (10 pts) Same setup as number 2. Caleulate the voltage across the 24 ohm resistor. 4. (10 pts) We have a series RC circuit. (Rİ 200 ohan, cis 50microfrads. The capacitor is initially uncharged when the switch is closed connecting a 12 Volt battery. Caleulate the voltage across the capacitor after 20 milliseconds....
You charge an initially uncharged 89.9-mF capacitor through a 35.7-? resistor by means of a 9.00-V battery having negligible internal resistance. Find the time constant of the circuit. What is the charge of the capacitor 1.09 time constants after the circuit is closed?
A circuit consists of a battery, a 100 kΩ resistor, 20.0 μF capacitor in series with a switch which is initially in the open position. The capacitor is initially uncharged. Part A) If the EMF of the battery is ε=15.1 V, calculate the current through the resistor 6.00 seconds after the switch is closed. (Give answer in μA) Part B) Calculate the charge on the capacitor 6.00 seconds after the switch is closed. (Give answer in μC)
You charge an initially uncharged 61.1-mF capacitor through a 45.1-Ohams resistor by means of a 9.00-V battery having negligible internal resistance. Find the time constant of the circuit. What is the charge of the capacitor 1.23 time constants after the circuit is closed? What is the charge after a long time? Time constant: Charge: Charge after long time:
Consider the two circuits below. The 5 mF capacitor has initial charge q_1 = 5 mu C, and will be discharged through a 20 ohm resistor when the switch is closed. The initially uncharged 10 mF capacitor will be charged using a 6 Volt battery through a 10 ohm resistor when the switch is closed. If both switches are closed at time t = 0, at what time t do the two capacitors have the same charge?