Need help solving part d. I 4. An alternating voltage source (15 V rms) drives the...
An AC generator supplies an rms voltage of 120 V at 60.0 Hz. It is connected in series with a 0.400 H inductor, a 5.30 ?F capacitor and a 251 ohm resistor. A.) What is the impedance of the circuit? B.) What is the rms current through the resistor? C.) What is the average power dissipated in the circuit? D.) What is the peak current through the resistor? E.) What is the peak voltage across the inductor F.) What is...
An AC generator supplies an rms voltage of 120 V at 60.0 Hz. It is connected in series with a 0.350 H inductor, a 5.10 μF capacitor and a 306 Ω resistor. a. What is the impedance of the circuit? b. What is the rms current through the resistor? c. What is the average power dissipated in the circuit? d. What is the peak current through the resistor? e. What is the peak voltage across the inductor? f. What is...
An AC generator supplies an rms voltage of 240 V at 50.0 Hz. It is connected in series with a 0.650 H inductor, a 4.70 μF capacitor and a 246 Ω resistor. a) What is the impedance of the circuit? b) What is the rms current through the resistor? c) What is the average power dissipated in the circuit? d) What is the peak current through the resistor? e) What is the peak voltage across the inductor? f) What is...
IS R, = 8 ΚΩ EV, = 3.1V EV, = 2.5 V R, = 4 ΚΩ | R, = 4 ΚΩ I,SR, = 8 ΚΩ V, = 3.1V 113' IV, = 2.5V R, = 4 ΚΩ I R, = 4 ΚΩ I, B 1, (a) What is the current through each resistor in part A (in mA)? (Indicate the direction with the signs of your answers.) 12 = ma mA ma (b) What is the current through each resistor in...
An RLC circuit consists of an alternating voltage source with RMS voltage 90 V and frequency 100 Hz, 180 ohm resistor, 200mH inductor, and a 900 micro-F capacitor, all wired in series. A) What is inductive reactance of the circuit? B) What is the capacitive reactance of the circuit?C) What is the impedance of the circuit? D)What is RMS current in the circuit?E) If the frequency is adjustable what frequency should you use to maximize the current in the circuit?
QUESTION 29 An RLC circuit consists of an alternating voltage source with RMS voltage 130 V and frequency 65 Hz, a 90 Ohm resistor, a 130 mH inductor, and a 200 micro-F capacitor, all wired in series. a) What is the inductive reactance of the circuit? b) What is the capacitive reactance of the circuit? c) What is the impedance of the circuit? d) What is the RMS current in the circuit? e) If the frequency is adjustable, what frequency...
Q2: An amplifier operating from t 15-V power supplies is fed with a sinusoidal voltage having 1 V peak and delivers a sinusoidal voltage output of 12 V peak to a 1-kΩ load. The amplifier draws a current of 6.5 mA from each of its two power supplies. The input current of the amplifier is found to be sinusoidal with 0.1 mA peak. Find (a) the voltage gain, (b) the current gain, (c) the power gain, (d) the power drawn...
An RLC circuit consists of an alternating voltage source with RMS voltage 90 V and frequency 100 Hz, a 180 Ohm resistor a 200 ml inductor, and a 900 micro-F capacitor, all wired in series. a) What is the inductive reactance of the circuit? b) What is the capacitive reactance of the circuit? c) What is the Impedance of the circuit? d) What is the RMS current in the circuit? e) of the frequency is adjustable, what frequency should you use to maximize the current...
4. In the circuit below, Vo = 120 V, w = 200 rad/s, L = 0.500 H, C = 6.00 pF, and R-3252 R V = V, sin(at) HE с (a) (3 pts) Calculate the rms current in the resistor. (b) (2 pts) Calculate the average power dissipated in the resistor. (e) (2 pts) You are able to vary the angular frequency w of the AC emf source in this circuit while keeping Vo = 120 V. For what value...
4. Consider a sinusoidal voltage signal of the form: v(t)=10sin(2(pi)1000t) Determine: a. average value of v(t) b. maximum value of v(t) c. minimum value of v(t) d. RMS (root mean square) value of v(t) Now assume that this signal is driving a 25Ω load. Determine: e. average power dissipated in the load f. maximum instantaneous power dissipated in the load g. Minimum instantaneous power dissipated in the load Also, provide: h. Frequency in Hz i. Period, in ms j. frequency...