4. Find vo in the time domain 609 20 cos (4t-159) 10mF + 5HD, 5. Determine...
· [Bonus] Determine the Thevenin equivalent circuit below when v40 cos(4000t- 30°). Find the time domain expression for in the circuit below. What is the time domain express for the maximum power transfer for the circuit? for maximum power transfer? Reminder: Express all answers in time domain. Vth and the value for Rth 115 pts 1/80 mF 20 mH 80 2 · [Bonus] Determine the Thevenin equivalent circuit below when v40 cos(4000t- 30°). Find the time domain expression for in...
In the circuit shown below, apply nodal analysis in the phasor domain to determine the current flowing out of the source on the right side, name it is (a) in phasor-domain, 1:1 (b) and in time-domain, is). 250 5923 ( 21 cos 105 V +1FMF 10.5 cos 101©
5. Shown here is the time-domain depiction of a circuit containing an ideal OpAmp. a) Sketch the corresponding phasor domain circuit assuming that vę (t) = V cos(ot+0). NVcci b) Derive the phasor domain expression for the output voltage phasor, V. TO -Vcci c) Determine the time domain output voltage, v. (t).
Given the circuit below, determine the power factor of the source, given that it has a frequency of 90 rad/sec. + 20 mH Vout(t) + Vin(t) 4 mF 222 A source is supplying a circuit with 1,294 W of real average power, with a power factor of 0.30 leading. Determine the apparent power being supplied by the source.
1) The source vokage of the circuit shown in Figure 4 is v. = 20 cos(39) V. Determine ico) an 1.) z2(t). The source voltage of the circuit shown in Figure 4 is vs = 20 cos(3t) V. Determine i(t) and ། { [t AA ཆ ༽ ཐ 3༽ ། 1 ད་ ༢༥༣ 'A 3རིན་
Problem #5 (20 points) For the circuit show below determine: a) The s-domain expression for V. b) The time-domain expression for v (t) for t> 0. 7Ω + 15u(t) A 311 0 .1F v
Part C - Combine impedances in series and in parallel to simplify a circuit in the frequency domain Consider the time-domain circuit shown here, which is a variation of the circuit from Paris A and B. The 100 22 resistor and the capacitance have been switched. Suppose we are able to adjust the frequency of the source by changing w, so the source is described as v(t) = 25 cos(ut - 30°) 2.5 UF 2002 VO 3 1002 350 mH...
4. Find vx(t) in the time domain in the following circuit. (12 points) 0.005 F 100 0.1 H Mmm 100 cos 40 v v (0) 40 cos (401 - 30) V 0.2 H 50 5. Find I in the circuit below using nodal analysis. Hint: Reduce the number of nodes first. (10 points) 6 12/0v +-20 3/10A 6/o v
Given the circuit below, determine the average real power P supplied by the circuit. Give your answer as positive and in units of W. Use the following quantities: w = 9,356 rad/sec and Vin = 45 20 V Vout 3 mH 5 ur 4022 V 2002
5. Given the circuit in Figure 5 and i(t) = I cos(@t) A, find the transfer function H(w) = V/I 10 22 WW + i(t) 10 22 vo(t) 20 mH Figure 5