An LC circuit like the one in the figure below contains an 90.0 mH inductor and a 11.0 uF capacitor that initially carries a 160 µC charge. The switch is open for t < 0 and is then thrown closed at t = 0.
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- An inductor of L = 6.95 H with negligible resistance is placed in series with a & = 14.9 V battery, a R = 3.00 2 S resistor, and a switch. The switch is closed at time t 0 seconds. Calculate the initial current at t = 0 seconds. I(t = 0 s) = A R Calculate the current as time approaches infinity. max Calculate the current at a time of 1.85 s. A I(t = 1.85 s) = 0000A 15-V battery is connected in series with a resistor and an inductor, with R = 20 22 and L = 30.0 H, respectively. What is the energy stored in the inductor one-time constant after the switch is closed is. O 7.2 J 3.37 J 4.5 J O 18.4JAn LC circuit like that in the figure below consists of a 3.30-H inductor and an 832-pF capacitor that initially carries a 113-μC charge. The switch is open for t < 0 and is then thrown closed at t = 0. Compute the following quantities at t = 4.00 ms. Qmax S (a) the energy stored in the capacitor (b) the total energy in the circuit (c) the energy stored in the inductor
- An LC circuit like the one in the figure below contains an 65.0 mH inductor and a 21.0 µF capacitor that initially carries a 175 µC charge. The switch is open for t < 0 and is then thrown closed at t = 0. + Qm max L 000 (a) Find the frequency (in hertz) of the resulting oscillations. 127 X What is the equation for the angular frequency of an LC circuit? Hz (b) At t = 1.00 ms, find the charge on the capacitor. 12.1 X What equation describes the oscillation of the charge as a function of time? µC largest value (c) At t = 1.00 ms, find the current in the circuit. -100 X You appear to be correctly calculating this current using your incorrect result for part (a). mA (d) What If? What are the first three times (in ms), after t = 0, when the capacitor is fully charged again? smallest value ms ms msThe inductance in the drawing has a value of L = 9.0 mH. What is the resonant frequency fo of this circuit? 150 Q fo = Number i Units W L 0000 1.9 F HI-Asap like
- An LC circuit like that in the figure below consists of a 3.80-H inductor and an 830-pF capacitor that initially carries a 105-μC charge. The switch is open for t < 0 and is then thrown closed at t = 0. Compute the following quantities at t = 2.00 ms. C Qmax L S eee (a) the energy stored in the capacitor J (b) the energy stored in the inductor J (c) the total energy in the circuitAn RL circuit consists of a switch, an emf source E,, a 3.0 ka resistor, and a 1.0H inductor. If the potential across the resistor is 15.0 V 8.0 ms after the switch is closed, find the source emf, E..An LC circuit like the one in the figure below contains an 65.0 mH inductor and a 28.0 µF capacitor that initially carries a 170 µC charge. The switch is open for t < 0 and is then thrown closed at t = 0. Qmax (a) Find the frequency (in hertz) of the resulting oscillations. | 117.97 Hz (b) At t = 1.00 ms, find the charge on the capacitor. 169.98 X µC (c) At t = 1.00 ms, find the current in the circuit. 1.63 X mA ell
- A 19.0 mH inductor, an 6.00 Ω resistor, and a 9.00 V battery are connected in series. The switch is closed at t = 0. ( h) What is the maximum energy stored in the inductor?A 35.0 V battery with negligible internal resistance, a 50.0 Ohm resistor, and a 1.25 mH inductor with negligible resistance are all connected in series with an open switch. The switch is suddenly closed. How long after closing the switch will the current through the inductor reach one-half of its maximum value? How long after closing the switch will the energy stored in the inductior reach one-half of its maximum value?Remove the inductor from the circuit in the figure and set R = 216 Q, C = 18.6 µF, fd = 60.0 Hz, and &m = 36.0 V. What are (a) Z, (b) , and (c) I? 90 R L 000 (a) Number Units (b) Number Units (c) Number Units