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 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 capac...
A coil is connected in series with a 13.0 kΩ resistor. An ideal 68.8 V battery is applied across the two devices, and the current reaches a value of 1.91 mA after 4.42 ms. (a) Find the inductance of the coil. (b) How much energy is stored in the coil at this same moment?
A coil is connected in series with a 9.66 kΩ resistor. An ideal 68.2 V battery is applied across the two devices, and the current reaches a value of 2.91 mA after 3.76 ms. (a) Find the inductance of the coil. (b) How much energy is stored in the coil at this same moment?
coil is connected in series with a 13.1 kΩ resistor. An ideal 64.3 V battery is applied across the two devices, and the current reaches a value of 2.83 mA after 6.42 ms. (a) Find the inductance of the coil. (b) How much energy is stored in the coil at this same moment?
A coil is connected in series with a 9.94 kΩ resistor. An ideal 74.6 V battery is applied across the two devices, and the current reaches a value of 2.87 mA after 6.97 ms. (a) Find the inductance of the coil. (b) How much energy is stored in the coil at this same moment?
A coil is connected in series with a 14.0 kΩ resistor. An ideal 56.3 V battery is applied across the two devices, and the current reaches a value of 2.20 mA after 5.59 ms. (a) Find the inductance of the coil. (b) How much energy is stored in the coil at this same moment?
A coil is connected in series with a 11.9 kΩ resistor. An ideal 48.2 V battery is applied across the two devices, and the current reaches a value of 2.66 mA after 3.96 ms. (a) Find the inductance of the coil. (b) How much energy is stored in the coil at this same moment? (a) Number (b) Number Units Units
An uncharged 1.0-μF capacitor is connected in series with a 23-kΩ resistor, an ideal 7.0-V battery, and an open switch. What is the voltage across the capacitor 11ms after closing the switch? A) 2.6V B) 2.7V C) 1.6V D) 0.62V
1. A 450 nF capacitor is initially uncharged. The capacitor is connected in series with a 2,500 resistor and a 6.00 V ideal battery. The circuit is “closed” allowing current to flow and the capacitor to start charging. a. What is the time constant of this RC circuit? b. What is the current through the resistor when the circuit is first “closed”? c. How much time is required for the voltage across the capacitor to reach 5.00 V? d....
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...
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...