circuit theory 202XZ0° AΖΩ-j20ZYZ0° Vestion 1) If X=20 and Y=36 in the circuit, calculate the "Z" impedance required for maximum average power transfer and the power drawn by the load.1)In the circuit X=20 and Y=36, calculate the "Z" impedance and the power absorbed by the load for the maximum average power transfer in the circuit.a. Z=0.8+1.6j, Vth=-368.00 +j16.00, P=2120.00 Wb. Z=0.8+1.6j, Vth=-36.80 +j1.60, P=212.00 Wc. Z=0.8-1.6j, Vth=-36.80 +j1.60, P=212.00 WO d. Z=0.8+1.6j, Vth=-460.00 + j20.00, P=1060.00 We. Z=0.8-1.6j, Vth=-644.00 + j28.00, P=1484.00 Wf. Z=0.8+1.6j, Vth=-276.00 +j12.00, P=636.00 Wg. Z=0.8-1.6j, Vth=-736.00 +j32.00, P=1696.00 Wh. Z=0.8-1.6j, Vth=920.00 + j-1.60, P=4240.00 W

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Answered: 202 XZ0° A ΖΩ -j20 Z YZ0° V estion 1)…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

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7. A source of 100 Volts rms is supplying a resistance 80 ohms in parallel with a 200mH inductor. To what angle is the current lag or lead? A. 46.7 deg. lag B. 43.3 deg. lag C. 46.7 deg. lead D. 43.3 deg. Lead 8. Two impedances Zı=2+j4 and Z2=R+j0, are connected in parallel. Determine R so that the pf of the circuit is 0.9 lagging. A. 3.2 ohms B. 4.2 ohms C. 2.4 ohms D. 6.4 ohms 9. The power factor of a load on a 120 volt. 60HZ source is raised from 0.707 to 0.866 lagging by connecting a 53 micro-farad capacitor across the load. What is the true power of the load in watts? C. 862 D. 268 А. 286 В. 682 10. A factory has an average demand of 176 kw at 70% power factor. What is the minimum size of capacitor required to raise the power factor to 95%? C. 122 KVAR D. 157 KVAR A. 165 KVAR B. 82 KVAR
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A synchronous generator may be represented by a voltage source of magnitude 1.7 p.u. in series with an impedance of 2 p.u. It is connected to a zero-impedance voltage source of 1 p.u. The ratio of X/R of the impedance is 10. Calculate the power generated and the power delivered to the voltage source if the angle between the voltage sources is 30°.
A single phase AC chopper supplies a pure inductive load of 0.02H from 220V, 50HZ AC supply. The triggering angle of the thyristors is 100°. (Assume the circuit is ideal.) a. Sketch the circuit b. Develop the load current expression and find the decay angle of the load current c. Sketch the load voltage and load current waveforms d. Calculate the RMS value of load voltage e. Calculate the RMS value of load current f. If the triggering angle of the thyristors is chosen as 60°. Explain the operation of the circuit.
Figure 2 shows an AC circuit consists of 2 loads. The information of the loads are given in Table 1. The circuit is supplied by AC voltage source, V,. Answer the following questions. i) Determine Zı and Zz impedances ii) Determine the rms value of Vs Table 1 Load Average power Power Factor Load Zi 24 kW 0.66 leading Load Z2 18 kW 0.82 lagging 0.6 N 1.2 2 j0.4 N V Z1 Vrms = 440/0° V
Assume you are working on sinusoidal ac supply voltage which is in the form of 150 sin 220 t. So apply this voltage find out following parameters. Analyze the average value of voltage. Options: A)89.85volt B)90.75volt C)86.45volt D)95.55volt
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A source is connected to two loads impedance Z, and Zz in parallel. Choose the correct statement(s): Select one: a. The total average power delivered by the source is the sum of the apparent powers dissipated by Z, and Z2 O b. The total apparent power delivered by the source is the sum of the apparent powers dissipated by Z1 and Z O c. None of these O d. The total average power delivered by the source is the sum of the real powers dissipated by Z, and Z2
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