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.-12020 M, Ts = 3020 [A], IVI = 1 and Problem 1. The circuit of the...
circuits
Problem #3 (20 pts): In the circuit below find the phasor Vo as a function of V, and ω assuming that V,-V,cos (ot) V and V,--2 V,cos (ot) V. Then plot 10log( IVI function of o. ) as a 250 kS2 500 k2 O Vo 0
Problem #3 (20 pts): In the circuit below find the phasor Vo as a function of V, and ω assuming that V,-V,cos (ot) V and V,--2 V,cos (ot) V. Then plot 10log( IVI...
Question 11 (1 point) Z3 Z4 Z5 In the circuit above, Vs* 100 L 30° V, Z1-100 Ω, Z2-/220 Ω, 23 -j 150 Ω, 24 470 Ω and Z5 = (680 +j330) Ω. Use any method of circuit analysis to determine the voltage across Z3 in polar form. Vz3 11.84 Z 18.18° V z3 100 30° v Vz3-19.39 Z-55.21° v Vz3-89.48 44.07
a. The value of the voltage source and all the load impedances of AC circuit in Figure Q2(a) are given as list below; 21 Z3 V. Z2 ZA Figure Q2(a) Calculate the real and reactive power absorbed by load impedances and (C01: P01 - 8 marks) ii. Determine the power factor at the load impedance, (C01: P01 - 2 marks) a. The value of the voltage source and all the load impedances of AC circuit in Figure Q2(a) are given...
4. Given the circuit in Figure 4. Consider k = 1 find M, I and I2 10 Ω A joM 10 Ω 10Z0° V j10Ω 0000 j10 Ω 12 10Z0° V
1. The difference equation for a single stage RC circuit, when the input is 1v., is shown below (see Lab 4): y(n) = (y(n-1) + a * Ts) / (1 + a * Ts) (0 < t < 1) where a = 1 / (RC) Ignore the difference equation for the case t > 1, when the input is 0v. (a) Find the Z-transform of y(n) analytically, assuming a time constant of a = 5 and sampling interval of Ts...
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5.2 (15 pts) In the following circuit, voltage source V 10020° V, 60 Hz supplies power to three load circuits with impedances Z1, Z2, and Z3. The following information was deduced from measurements performed on the three load circuits Load Z1: 45 W at pf 0.95 lagging Load Z2: 70 VA at pf 0.75 leading Load Z3: 100 VA at pf = 0.6 lagging (a) Are Z1, Z2, and Z3 inductive or capacitive? (b)...
3. For the circuit shown in Figure 1, + VR - R = 3k 494 ET V 4.7 uF E = 8V sin(20,000t +60° -VL + Z = ? m L = 0.5 H Figure 1 i. ii. iv. v. vi. vii. Find the total impedance Zr in polar form. Draw the impedance diagram Find the current and the voltages VR, Vi and Vc in phasor form. Draw the phasor diagram of the voltages E, VR, V., and Vc and...
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For the circuit of Question 1, follow the steps below to use superposition to find Vo. 20 20 w zi 2/A 21 2/6A ES 2+-20 240 20 v 2+ -20 234 20:40 2120 v. 134 134 b Finding Vo' due to the current source is: 1. From circuit (a),...
4. Fig. 2 below shows a series R-L circuit: VA Fig. 1 (a) Suppose the phasor Kas -12020-v at f= 60 Hz. A = 100 Ω, and L= 0.5 H. Find in the following order: (b) Now, write the expressions for current resistor voltage Kalf), and inductor voltage ws in the form (V or Alsiniot) where the represent voltage, current, or angle in degrees. Remember to multiply ms magnitudes by 1.414 to obtain peak values.
roblem 5i Consider the circuit with an ideal transformer shown in Figure 5. 1:2 820 16 ? V. 2 Figure 5. Ideal transformer circuit Submit the Following in the Online Quiz 20 points : Real and imaginary parts of l 12 1A 20 points: Real and imaginary parts of V, VV 5.a : Determine the numerical value of the phasor current 1, in rectangular form 5.b : Determine the numerical value of the phasor voltage 1z in rectangular form.