In the circuit, the capacitor is fully charged when switch ?S is closed. Calculate the time...

Imagine you have a circuit that consists of an open switch, a 0.020 F capacitor, a...

Imagine you have a circuit that consists of an open switch, a 0.020 F capacitor, a 0.090 H inductor, and a 4.00 Ω resistor all in series. The capacitor was charged all the way up with a 9.0 V battery before the capacitor was placed into the circuit and the battery was removed completely. If the switch is closed (completing the circuit) at t=0 s, find the energy stored in the magnetic field within the inductor when t = 30.0...

A capacitor is charged with a battery. When the energy stored in the capacitor is 1...

A capacitor is charged with a battery. When the energy stored in the capacitor is 1 ??, the capacitor is disconnected from the battery in the circuit and connected in series with an inductor with an inductance of 6 ?H. What is the current in the inductor when the load on the capacitor is half the initial maximum value? (The resistance in the circuit can be neglected.)

. A series circuit consists of a 4 mF capacitor, originally charged at 1 C, a...

. A series circuit consists of a 4 mF capacitor, originally charged at 1 C, a 6 mH inductor and a switch initially open. After the switch is closed find: a. The angular frequency of the oscillations. b. The charge in the capacitor at 1 ms. c. The current in the inductor at 1 ms.

a) When the capacitor is charged and the circuit is closed, find the condition for the...

a) When the capacitor is charged and the circuit is closed, find the condition for the current to be oscillatory. b) When the circuit is connected to an AC source V = ?0 cos??, find the voltage across the inductor and the angular frequency at which the voltage across the inductor is maximized.

A series circuit contains an 80-?F capacitor, a 0.020-H inductor, and a switch. The resistance of...

A series circuit contains an 80-?F capacitor, a 0.020-H inductor, and a switch. The resistance of the circuit is negligible. Initially, the switch is open, the capacitor voltage is 50 V, and the current in the inductor is zero. At time t = 0 s, the switch is closed. What is the maximum current in the circuit? a. 2.8 A b. 2.2 A c. 2.4 A d. 3.0 A e. 3.2 A

, switch S1 is closed while switch S2 is kept open. The inductance is L =...

, switch S1 is closed while switch S2 is kept open. The inductance is L = 0.160 H , and the resistance is R = 120 Ω . When the current has reached its final value, the energy stored in the inductor is 0.300 J . What is the emf E of the battery? After the current has reached its final value, S1 is opened and S2 is closed. How much time does it take for the energy stored in...

switch S1 is closed while switch S2 is kept open. The inductance is L = 0.160...

switch S1 is closed while switch S2 is kept open. The inductance is L = 0.160 H , and the resistance is R = 135 Ω . A-)When the current has reached its final value, the energy stored in the inductor is 0.250 J . What is the emf E of the battery? B-)After the current has reached its final value, S1 is opened and S2 is closed. How much time does it take for the energy stored in the...

In Fig.30.11 in the textbook, switch S1 is closed while switch S2 is kept open. The...

In Fig.30.11 in the textbook, switch S1 is closed while switch S2 is kept open. The inductance is L= 0.110 H , and the resistance is R = 125 Ω . Part A When the current has reached its final value, the energy stored in the inductor is 0.300 J . What is the emf E of the battery? Part B After the current has reached its final value, S1 is opened and S2 is closed. How much time does...

A series RLC circuit has a capacitor with a capacitance of 48.0 uF (microfarads) , an...

A series RLC circuit has a capacitor with a capacitance of 48.0 uF (microfarads) , an inductor with an inductance of 1.10 H and a resistor with a resistance of 50.0 ohms. The circuit has a rms current of 5.90 A when the frequency is 60.0 Hz. What is ?rms, the phase angle, and the average power loss?

1) When switch is closed at t = 0, capacitor behaves as a(n) (A) Open Circuit...

1) When switch is closed at t = 0, capacitor behaves as a(n) (A) Open Circuit (B) Short Circuit 2) After the swich has been closed for a long time, the capacitor behaves as a(n) (A) Open Circuit (B) Short Circuit Please give a little explaination.