
#1: A high-voltage AC power supply (Emax = 311 V) is connected to an inductor. A...
The output voltage of an AC generator is given by Δv = (1.18 ✕ 102 V)sin(31?t). The generator is connected across a 0.500 H inductor. Find the following.(a) frequency of the generator Hz(b) rms voltage across the inductor V(c) inductive reactance Ω(d) rms current in the inductor A(e) maximum current in the inductor A(f) average power delivered to the inductor W(g) Find an expression for the instantaneous current. (Use the following as necessary: t.)i=2.42·sin(31πt) (h) At what time after t = 0 does the instantaneous current first reach 1.00 A? (Use the inverse sine function.) Your response differs...
An AC source has an output rms voltage of 71.0 V at a frequency of 41.5 Hz. The source is connected across a 25.5-mH inductor. (a) Find the inductive reactance of the circuit. (b) Find the rms current in the circuit. (c) Find the maximum current in the circuit.
The output voltage of an AC generator is given by Δv = (1.01 ✕ 102 V)sin(39πt). The generator is connected across a 0.500 H inductor. Find the following. (a) frequency of the generator Hz (b) rms voltage across the inductor V (c) inductive reactance Ω (d) rms current in the inductor A (e) maximum current in the inductor A (f) average power delivered to the inductor W (g) Find an expression for the instantaneous current. (Use the following as necessary:...
2. An AC power source with V 220 V and f60.0 Hz is connected in a series RLC circuit. The resistance, R. inductance, L, and capacitance. C. of this circuit are, respectively. 46.0 12, 0.150 H. and 0.035 mF. Find each of the following quantities, (a) the inductive reactance, the capacitive reactance, (c) the impedance of the circuit (d) the maximum current through the circuit (based on the frequency given above) (e) the maximum potential difference across each circuit element...
An AC source has an output rms voltage of 78 V at a frequency of 80 Hz. If the source is connected across a 25mH inductor, what are (a) the inductive reactance of the circuit, (b) the rms current in the circuit and (c) the maximum current in the circuit?
A continuous AC voltage with peak voltage of 6 V and frequency f=732398 Hz is connected with a resistor (R-220 Ω), a capacitor with C-0.1 μΕ and an an inductor with L=680 nH. What is the capacitive reactance? What is the inductive reactance? What is the impedance when all three components are connected in SERIES? What is the current when all three components are connected in SERIES? What is the impedance of the circuit when all three components are connected...
An RLC circuit consists of a resistor, a inductor, and a capacitor connected in series to an AC voltage source with an RMS voltage of 74 volts. At half the resonant frequency, the phase angle is -25 degrees and the inductive reactance is 47 Ohms. What is the average dissipated power at twice the resonant frequency in Watts?
A series AC circuit has a power source with frequency f = 60 Hz, peak voltage of epsilon_0 = 5.0 V, resistance R = 0.50 omega, capacitance C = 320 mu F, and inductance L = 0.40 H. what is the period circuit? What is the maximum current through the inductor? What is the largest power reached in resistor? Suppose the power supply reaches maximum voltage at time t_1, how the long after t_1 does the current though the resistor...
1) What is the power outlet for an rms voltage of a standard 220 V? 2) Consider a driven RLC series AC circuit. At frequency f1 the capacitive reactance is twice the inductive reactance. Determine frequency f2 as a function of f1 so that the inductive reactance is twice the capacitive reactance. 3) A standard 120V ac source, connecting wires, and two ideal identical transformers are available. Each transformer has a different number of turns in the two coils. How...
A series AC circuit contains a resistor, an inductor of 250 mH, a capacitor of 4.50 uF, and a source with AV = 240 V operating at 50.0 Hz. The max maximum current in the circuit is 170 mA. (a) Calculate the inductive reactance. The inductive reactance depends on the value of the inductance and the frequency of the source. Q (b) Calculate the capacitive reactance. (c) Calculate the impedance. kn (d) Calculate the resistance in the circuit. kn. (e)...