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estion 130 Paint Consider the circuit below and answer the following questions: 1022 492 0.01 F ix 592 w 10 cos(101 - 10°) V WW 322 1Η Q2. a. 10 Points Draw the phasor domain circuit. Q2. b. [10 Points) Calculate the total impedance seen by the voltage source. Show your detailed solution.
Outoni 110 Pets Consider the concellow and wer the following questions 1022 V 1.5H 000 2 H1 000 1.5 H 20cos / V 0.01F Q1. a. 110 Points Draw the phasor domain circuit Q1. b. 115 Points Use nodal analysis technique to calculate the voltage V, in the time domain, Vict) Show your detailed solution Final Answer: Vilt- QI. c. 15 Points Calculate the current is in the time domain, if
For the circuit given below, Vs = 100 290° V Calculate 2 (impedance seen by the voltage source) and V ab 10 22 j52 Vs b + Vab -32.522 2002 Zr
130 V. For the following problems, A 60 Hz voltage source has an amplitude of VT compute the indicated phasors l Q1. The source is connected across a series RL ac circuit with R = 8.2 Ohm and X1 = ω k = 5.7 Ohm. 1a) Find the magnitude of impedance of the series combination (Unit: Ohm) 1b) Find the phase angle of impedance of the series combination (Unit: dea) 1c) Calculate the current phasor I at an angle of...
shown in Figure 1(a) is a separately excited generator. It is known that Rf-250, Ra- 10 Ω, v,-100 V, and ahn-100 rad/s. The magnetization curve of the machine is shown in Figure 1(b). when (1) Assume that the generator is driven to Wm-150 rad/s by a prime mover. Find the generator has no load (i.e., the voltage generated by the generator in the case of open circuit) (2) Find Va when the generator is driven to am-150 rad/s and is...
show all work
Problem # 6 (20 points): An ac source of 110-V (rms) and angular frequency w=300 rad/s is connected to an LRC series circuit, where R=40 , L =200 mH, and C =600 pF. Find: (a) the inductive reactance, the capacitive reactance, and the impedance of the circuit (b) the peak and rms current, (c) the peak voltage and the rms voltage across each element, (d) the instantaneous voltage across each element. Problem #2 (20 points): In a...
linear circuit
Q1 (60 Points]: Consider the circuit below and answer the following questions: 30 V 120 20 60 V. 15 V 50 4A (a) [20 Points Use superposition principle to calculate the current i. Show your detailed solution step by step, explain what you are doing, and draw the circuit used for each step. (b) (10 Points Use superposition principle to calculate the voltage V.. Show your detailed solution step by step, explain what you are doing, and draw...
6.4 (5) Draw the frequency domain circuit and calculate v(t) for the circuit shown if i(t)-10 sin(1000t -30°) A 35 Ω i(t) v(t) 15 mH 6.5 (5) Calculate the three phasor currents Ic, IR and It. from problem 6.4 and draw them on a phasor diagram. Show both algebraically and on the phasor diagram that: I=Ic + IR + IL
Question #01 (30 points) Consider the following circuit. Let us define the phasors in terms of the Sine function. 0.25 F 12 H 222 1H = 0.5 F {52 8 sin (2t + 30°) V Zeq + 1. Draw phasor domain circuit. (4 points) 2. Find Zee for the circuit as seen from input voltage source. (6 points) 3. Draw Zeq phasor. (2 points) 4. Find resistance and reactance for Zeq. Is the reactance capacitive or inductive? (3 points) 5....
2- A circuit across the terminals of a sinusoidal voltage source, as shown in Figure 2. The steady-state expression for the source voltage is v;=50.cos(1000t+20). (40 points) 12 mH 100 MF 10 Figure 2 a) Construct the frequency-domain equivalent circuit. b) Calculate the steady-state current i by the phasor method.