In a series RLC oscillating circuit, the source is disconnected after the capacitor is fully charged. The charge on the capacitor decays to 60% of its initial value in 40ms. What resistance R (in ohms) must be connected in the circuit with a 300-mH inductor for this to occur. 8.66 O 9.66 O 5.66 4.66 7.66
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- An RLC circuit consists of a 1.34 2 resistor, a 8.44 nF capacitor, and a 5.55 mH inductor. Initially, the voltage across the capacitor is 1.46 V, and no current is flowing in the circuit. How many oscillations occur as the charge amplitude on the capacitor decays to 67.4% of its initial value? It is acceptable to let w' = w. i oscillations (include decimals if needed to keep the appropriate number of significant digits in your answer)When a 2.5 micro farad capacitor is connected to a generator whose rms output is 120 V, the current in the circuit is observed to be 1.2 A. The capacitive reactance is O a. 250 ohm O b. 360 ohm O c. 300 ohm O d. 100 ohmThe following table gives the reactance and rms voltage across the elements of a series RCL circuit: Circuit element Reactance Voltage across element resistor 2.00 x 102Q 86 V capacitor 6.63 × 10² Q 285 V inductor 3.77 x 1020 162 V What is the power factor for this circuit? O 0.81 O 5.5 O 0.40 O 1.4 O 0.57
- You connect a 100-Ω resistor, a 800-mH inductor, and a 10.0-μF capacitor in series across a 60.0-Hz, 120-V (peak) source. The approximate resonant frequency of your circuit is Group of answer choices 37 Hz 60 Hz 354 Hz None of these is correct. 56 HzQuestion 21 You have a circuit that consists of a resistor (30 2), an inductor (15 mH) and a capacitor (25 µF) connected in series to an AC voltage source with Ems = 110 V and an oscillation frequency of 60 Hz. What is the average power dissipated in the resistor?You have a series RL circuit. You are trying to decrease the time constant. Which of the values you should increase? Question 5 options: Inductance Resistance
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