5) A resistor of 6 kilo-ohms is connected in series to a capacitor which are connected...

A resistor of 8 kilo-ohms is connected in series to a capacitor which are connected to...

A resistor of 8 kilo-ohms is connected in series to a capacitor which are connected to a 6 volt battery. After some time, the charge in the capacitor is 10 micro-coulombs. At that time, the battery is disconnected and 7 milli-seconds after the battery has been disconnected, the charge in the capacitor is 3.7 micro-coulombs. What is the voltage across the resistor 2.8 milli-seconds after the battery has been disconnected in volts?

A resistor of 10 kilo-ohms is connected in series to a capacitor which are connected to...

A resistor of 10 kilo-ohms is connected in series to a capacitor which are connected to a 10 volt battery. After some time, the charge in the capacitor is 10 micro-coulombs. At that time, the battery is disconnected and 5 milli-seconds after the battery has been disconnected, the charge in the capacitor is 3.7 micro-coulombs. What is the voltage across the resistor 1.9 milli-seconds after the battery has been disconnected in volts?

A resistor of 5 kilo-ohms is connected in series to a capacitor which are connected to...

A resistor of 5 kilo-ohms is connected in series to a capacitor which are connected to a 9 volt battery. After some time, the charge in the capacitor is 10 micro-coulombs. The battery is disconnected and 26 milli-seconds after the battery has been disconnected, the charge in the capacitor is 3.7 micro-coulombs. What is the value of the capacitor in micro-farads?

1. A resistor of 4 kilo-ohms is connected in series to a 12 micro-farad capacitor and...

1. A resistor of 4 kilo-ohms is connected in series to a 12 micro-farad capacitor and a 40 volt battery. What is the voltage across the capacitor after one time constant? 1B. A resistor of 4 kilo-ohms is connected to a 12 micro-farad capacitor. The initial charge in the capacitor is 40 micro-coulombs. What is the initial voltage across the capacitor?

PART A A resistor of 4 kilo-ohms is connected to a 12 micro-farad capacitor. The initial...

PART A A resistor of 4 kilo-ohms is connected to a 12 micro-farad capacitor. The initial charge in the capacitor is 40 micro-coulombs. What is the time constant of the circuit? PART B A resistor of 4 kilo-ohms is connected to a 12 micro-farad capacitor. The initial charge in the capacitor is 40 micro-coulombs. What is the charge in the capacitor after 3 milli-seconds (ms)?

part A A solenoid with 44 x 103 turns per meter, a cross sectional radius of...

part A A solenoid with 44 x 103 turns per meter, a cross sectional radius of 0.5 m, and a length of 0.2 meters is used as to form an inductor. Then a 8 x 103 volt battery (DC) is connected in series to this inductor, a resistor of 2 kilo-Ohms, and another resistor of 8 kilo-Ohms. After 14 milli-seconds, what is the power output of the battery in kilo-watts? part Aa. A battery (DC battery) is connected in series...

10) A resistor is connected to a capacitor of 3 micro-farads without a battery. The initial...

10) A resistor is connected to a capacitor of 3 micro-farads without a battery. The initial charge of capacitor is 100 micro-coulombs. After 12 milli-seconds, the charge in the capacitor is 37 micro-coulombs. What is the current in the circuit, in milli-amps, at one time constant? Hint: find the value of the resistor first.

A battery (DC battery) is connected in series to a 13 milli-henrie inductor and a 6...

A battery (DC battery) is connected in series to a 13 milli-henrie inductor and a 6 Ohm resistor. After 6 milli-seconds, the battery is disconnected. 3 milli-seconds after the battery has been disconnected, the current in the circuit is 2.3 amps. What was the voltage of the battery that was disconnected in volts?

In the circuit below, R1 = 5.5 Ohms, R2 = 4.6 Ohms, and C = 4.5...

In the circuit below, R1 = 5.5 Ohms, R2 = 4.6 Ohms, and C = 4.5 micro-farads. The capacitor was initially charged by a battery and right when the battery was disconnected, the charge in the capacitor is 215.2 micro-coulombs. What is the current through R1, in amps, 15.4 micro-seconds after the battery has been disconnected? Hint: combine the resistors into their equivalent form and use this to find the time constant of the equivalent circuit. Then, find the voltage...

4) A battery (DC battery) is connected in series to a 14 milli-henrie inductor and a...

4) A battery (DC battery) is connected in series to a 14 milli-henrie inductor and a 4 Ohm resistor. After 6 milli-seconds, the battery is disconnected. 5 milli-seconds after the battery has been disconnected, the current in the circuit is 3.8 amps. What was the voltage of the battery that was disconnected in volts?