Zb21ZabFigure 19-5%3DIn the accompanying figure, let Z1 = 4 + j2 W, Zb = 5 + jO W, and Zc = 6 - j4 W.Determine the equivalent D impedances.O Za = 15 - j11 W, Z, = 16.4 = j2.79 W, Z. = 10.5 + j6.78 W%3DO Z1 = 12 + j6 W, Z2 = 15 + j0 W, Z3 = 18 - j24 WO Z1 = 2.14 - j1.06 W, Z2 = 2 + jo w, Z3 = 1.22 + j0.832 WO Z1 = 1.33 - j0.667 W, Z2 = 1.67 + j0 W, Z3 = 2 - j1.33 W

Answered: Image /qna-images/answer/805171cf-1bf8-4c84-900f-2f44a98a9a96.jpg

С а Zb 21 2a Z2 Figure 19-5 In the accompanying figure, let Z1 = 4 + j2 W, Zb = 5 + jO W, and Zc = 6 - j4 W. Determine the equivalent D impedances. %3D Za = 15 - j11 W, Zb = 16.4 = j2.79 W, Zc = 10.5 + j6.78 W %3D Z1 = 12 + j6 W, Z2 = 15 + jO W, Z3 = 18 - j24 W Z1 = 2.14 - j1.06 W, Z2 = 2 + jO W, Z3 = 1.22 + j0.832 W %3D Z1 = 1.33 - j0.667 W, Z2 = 1.67 + jO W, Z3 = 2 - j1.33 W %3D

С а Zb 21 2a Z2 Figure 19-5 In the accompanying figure, let Z1 = 4 + j2 W, Zb = 5 + jO W, and Zc = 6 - j4 W. Determine the equivalent D impedances. %3D Za = 15 - j11 W, Zb = 16.4 = j2.79 W, Zc = 10.5 + j6.78 W %3D Z1 = 12 + j6 W, Z2 = 15 + jO W, Z3 = 18 - j24 W Z1 = 2.14 - j1.06 W, Z2 = 2 + jO W, Z3 = 1.22 + j0.832 W %3D Z1 = 1.33 - j0.667 W, Z2 = 1.67 + jO W, Z3 = 2 - j1.33 W %3D

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.7P: Let a 100V sinusoidal source be connected to a series combination of a 3 resistor, an 8 inductor,...

See similar textbooks

Similar questions

For the circuit diagram in figure Q22: which of the following is the total impedance? 12 Ri 10R R2||5R Figure Q22 V 220V40 50HZ L1 315mH C1=350uF O a. 3.33/0° O b. 4.71290°2 O c. 7.3304-19.66° O d. 10.37261.19°2
DC-AC Circuits Express R1 using Rx, Ry, and Rz when performing wye to delta conversion R3 Rx Rz R2 R1 Ry O A. (Rx+Ry)(Ry+Rz)(Rx+Rz) Rx В. RyRz Rx+Ry+Rz O C. Ry+Rz RXRYRZ O D. RXRYRZ Ry+Rz OE. RxRy+RyRz+RXRZ Rx
Qu / MA 20 Using the afind the Ruh Sind the veAih's Voltage Vthi Bfind the value df load resislance? Gfind The max imu m Power at the Condidlon delivered to lead2
Exercise-1 Vs = 240V 60Hz Is=10A/....... Power system Is ww R 1k0 Xc=-j/(2pi60x0.00016)=-1994 XL=ZL=j2pifl=j2pi60x0.142=j53.54 142mH Is=Ir+IL+Ic=.........=Vs/Ztotal=....... 160μF
The dioces are ideal. write the Fransfer Characteidie equati ons ( &, as a funchiar g &) Plot &o agaiwet &, imdicaling all intrcepts, slopes and Volt ope lerels. Sketch bo f bq =40 sin wt. Indicate al voltage lezels - %3D 1OK lok lov
Draw a seven-segment display, show the number highlighted in figure 1 (d3 -d0 are the input, a -g are the outputs). III. Simulation Wavetorm Editor - Cers/Ahmad Fainuz/Desanop/DLD Lab Practice/bedseg - beaeg - bcaseg 2018o03121936sim.vwwt Ee ep Ea w smutation search altera.com Haster Time Bar: ops Pointer: s29 us Start End iterval 529 us o ps 0 ps २ 2.56 us S12 us 75 us 10.24 us 12 s 15.36 us 172 us value at Name Ops do Figure 1
2, Zs Z7 Solve for: Solve for: h.) S5 i.) P6 j.) Q7 Given: E = 1002 – 90 volts Z4 = 42450 Z1 = 1200 Z5 = 5453.13N Z2 = 2436.87N Z6 = 62 – 90N Z3 = 32 - 30N Z, = 72750
Consider the following circuit used to provide power for an induative RL load. The input voltage is V-100V and the load has a 50 impedance value. The thyristor is working at a frequency fs = 2 kHz. The discharge current is to be limited to 40A and the required dv/dt is 40V/us. If the value of Ce is equal to 0.14uF, then the snubber losses are equal to: R. V. Select one: O a 5.4W O b. 7.4W 1.4W Od. 3.4W
15. You are working on a power factor correction installation, and you notice with a clip-on ammeter as you add in capacitance the current drops, you add more capacitance and the current drops, you add more capacitance the current rises. How do you know when you are at unity power factor?
Use the information below to answer questions 24 und 25. The voltage across and the current through a load are (10+ j5Y and (2-jiArespecively. 24. What is the reactive power in VArconsumed? D. 0 A. 15 C. 20 D. 25 25. What is the pawer factor of the load? A. 0.8 leading B. 0.8 Jagging. -D. 0.6 ligging C 0.6 leading
A generator rated at 30MVA, 11kV has a reactance of 40%. Calculate its p.u. reactances for a base of 50MVA and 10kV. O 0.606 p.u. O 0.506 p.u. O 0.806 p.u. O 0.706 p.u.
Q2. For the circuit shown in figure (a), let the frequency is 1KHZ, and V1 = 20Vms, draw the following: 100uF C2 V1 1000UF R1 VSINE 2K A. Impedance diagram B. Voltages phasor diagram. C. Measure the voltage across R1, Vin, and the capacitors, C1, C2 us ng the oscillscope using PROTEUS software. D. Measure the current in the circuit using DMM E. From the above measurments verify your result.