Find Z @ w=4rad/s if the terminals a&b are 1) open circuited; 2) short circuited 82 ele 4h Zin
Q: Example23/ Two transformers (4) are designed to match a line having a Z, = 3002, Zr = 75N find…
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Q: 1. Determine I, in the circuit shown by mesh analysis jan -jir 1 34c- I, 2. In the circuit shown,…
A: In this question we will find mesh current I1 using mesh analysis.... Note:- as per our guidelines…
Q: A I, FE= Z0.252 = looV ETllov 日 T220v 0.22 by I need this at nodal solution
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Q: The networks A and B in the circuit are reciprocal and symmetric. For network A, it is known that…
A: Assuming that Vg = 75∠00, Zg = 1∠00 and ZL = 14∠00 As it is given in the question that the network A…
Q: H.W. (1) Find the total admittance and impedance of the parallel network of Fig. 23 10 kn Z₁ XL R6k0…
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Q: The Generation and Transmission of Electric power adopts 3 phase 3 wire system. Select one: True O…
A: Let us understand the wire system being adopted in the generation and transmission of electric…
Q: An attenuator circuit shown in Figure 3. Given Z, = 50 N. 75 N 25 Ω wwo Port Port 350 N 2
A: Given the circuit: We need to find S21 of this circuit using two-port scattering parameters…
Q: Suppose r(t) = A et, where A = j2 and o = -1 – 2jw, where w is some variable. Write down expressions…
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Q: Q4) A 3-phase, 50 Hz, 100 km long overhead transmission line has the following line constants:…
A: Given data, Length of transmission line L =100 km Resistance per phase per km R = 0.153 Inductance…
Q: For the two port network shown. Calculate the maximum average load power. Z11=3.752 0.5A Z12=-3.1252…
A: Using STT Here,2I1+v1=1 ........1and,v2=-25 I2 .......2v1=1-2I1 =3.75 I1-3.125 I2Therefore, 5.75…
Q: State two (2)differencesbetween Nodal Analysisand Mesh Analysis
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Q: Q3) Consider 4-bus 5 line Power System shown below. All indicated values are admittances in p.u 2)…
A: Here we have 4 nodes. So,the Y-Bus matrix will have size 4*4. For the Y Bus matrix Y11=y12+y13 ;…
Q: Ę Referring to Fig. 12.87, we have, 1,2+(₁+1)ZE 1₂2, +(1+1₂) ZE and Subtracti - 12000 √√3 Som eq.…
A: In the given questions we need to verify the given results by simply the step.
Q: Determine the current using source transformation. Assigned branch current = i1 (solve using…
A: The circuit diagram is shown below,
Q: H.W. Find the transmission parameters 8Ω ww 6Ω wwo 12 22 13
A: Detail solution is in the image
Q: Q.5 For the following network, find the Norton's equivalent circuit for the portion external to the…
A: Norton method:- Evaluation of the short circuit current or In= for the evaluation of the short…
Q: The system is given below as: ž, = x,(x} + x3 – 2) – 4x,x3 iz = 4x}x, + x2(xỉ + x3 – 2) Assume that…
A: For the solutions of differential equations or difference equations characterizing dynamical…
Q: Q.29: For the two-port electric network shown in figure beside, calculate the maximum load power?…
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Q: 10.25: For the following electric circuit, find Z and Y parameters? Also, compute input and…
A: Here we discuss about Z & Y parameters.
Q: For the reactance network shown in Figure 2, find element Y33 of its bus admittance matrix. Below…
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Q: Q2) A 132 kV, 3-phase, 50 Hz transmission line 200 km long having a capacitance to earth of each…
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Q: Example23/ Two transformers are designed to match a line having a Z, = %3D 3002, ZR = 75.2 find…
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Q: Two parallel-connected impedance Z₁ = 8 + j 6 2 and Z₂ = 10 +j 2 2 are connected in series with 15 2…
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Q: State and explain the advantages f communicating using geo- tationary satellites compared vith those…
A: to explain the advantages of communicating using geo stationary satellites compared with those whose…
Q: Vse mesh analysis 2 4. + $5 34 Toy 50x to solve for i at 5.
A: We need to find out the current for given circuit
Q: (2) 1435 2014 220 50 S 50HZ For the circull shown find ZR,ZL, ZI T VR, VL, VC
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Q: The b parameters for the two-port circuit in (Figure 1) are b1 =1+j b12 = -1+j4 N; %3D bn =}S; by2…
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Q: A 30 IL has the following data: 2L/WI 30 Q; shunt capacitive susceptance at the middle of the line,…
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Q: Complete the table given by using mesh analysis. Note: If there are no coefficients for a particular…
A: In this question, We need to determine the value of impedance Z as show the question using the…
Q: 30s 251 65m 1502 1435 2014 22o 50 For the ciccull shown find ZR,ZL,ZIT, VRT V Vc. Cin complex)
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Q: 2. Write the nodal equations for the network in Fig.. Using determinants, solve for the nodal…
A: Given circuit,
Q: coordinate system at (2,8,9). A ystem 2844Qug. Determine the value of its ene i
A: We need to find out the x component of rectangular coordinate system
Q: ID. = 2.5 mA For JFET network shown below, given the following VDD = 24 V Ioss = 6 mA Vp = -6 V…
A: VDD= 24V IDSS=6mA Vp =-6V IDQ=2.5mA VDQ=10V
Q: (15) 2. Find v by using nodal analysis. 12 V GA 25 {822 十一 3402
A: Given circuit,
Q: A microstrip line is used as a feed line to a microstrip patch atenna.the substrate of the line a is…
A: Fig: Micro strip line Given that w/h= 1.2 t/h =0 εr = 10…
Q: 2. Determine the indicated parameters across terminals a and b. Consider each of the networks…
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Q: 6. If three impedance of Y and A connections are equal , than a. Z,/ Iy = 2 b. ZA/ Iy = 3 c. ZA/ Iy…
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Q: d. For each of the systems shown below, decide whether the statements YZ and [Y+Z]-YZ are true or…
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Q: Example23/ Two transformers are designed to match a line having a Z, = %3D 3002, ZR = 752 find…
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Q: Determine the network elements and values of the empedance Zx in the given circuit below if Vx = 33…
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Q: the stability of the following -ized system the Lya punor equation conside
A: Solution- Given,X1˙X2˙ =01-2-3+X1˙X2˙Q = IQ =1001Here A = 01-2-3Lyapunov's equation is…
Q: A 300 m transmission line has following constants for total length: 4.5kn, 0.15mH, 60mS, 12 nF. The…
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Q: raw (400KV) Overhead Transmission Towers with all engineering details.
A: (400KV) Overhead Transmission Towers
Q: 1. Z parameters=? 492 392 a.)z11=7ohms,z12=z21=z22=3ohms b.) a.)z11=8ohms,z12=z21=z22=4ohms c.)…
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Q: QI By applying Nodal method of network analysis, find the current (Ix) as shown. 3A 10 Ix Amp. 23 73…
A: We will apply KCL at both nodes to find node voltage, using ohms law we will find current.
Q: Determine the nodal voltages for the networks of Fig. 6 Ω · 8 Ω 1₂ = 6A/90° 5- 4031₁4A20⁰ ell 50 202…
A: we know thata+ib=a2+b2∠tan-1bar1∠θ1r2∠θ2=r1r2∠θ1-θ2
Q: Question 13 = 602 t=0 Z, = = 502 R = Vg = 100V v, = 10*m/s %3D 802 50m Determine Vss and Iss- b.…
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Q: For the two port network shown. Calculate the maximum average load power. Z11=3.752 0.5A Z12=-3.1252…
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Q: Refer to the parallel ac network below: 10 Ω 500 µF, 0.5 H wwww 13 100 µF wwww 12 ο.1 Η wwww 100Z0°…
A: To find the total admittance of the network and supply current Admittance Y = 1/ Z
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- Explain the difference between cumulative- and differential-compounded connections.transform the circuit in phasor domain representation a) Determine the value of branch current, I1 and I2b) Determine the value of voltage across resistor, R1, R2 and R3c) Determine the value of voltage across capacitor, C1 and C2d) Determine the value of voltage across inductor, L.Draw a signal flow graph for the electricalnetwork shown and determine v4/v1. Please show full and clean solution thanks!
- Find the range of K, using Routh Table for the system of Figure that will cause the system to be stable.Provide circuit diagram for following equations: AB’{C+D’}’+{G.H}’+{A xor M} {{M+N}’.{Q xnor P’}.{A’.C’}’}20 What is countertorque a measure of? PRACTICAL APPLICATIONS ou are working as an electrician in a large steel manufacturing plant, and Y in the of doing preventive maintenance on a large DC you are generator. You have megged both the series and shunt field windings and found that each has over 10 M2 to ground. Your ohmmeter, however, indicates a resistance of 1.5 2 across terminals S, and S,. The ohmmeter indicates a resistance of 225 N between terminals F, and F2. Are these readings normal for this type machine, or is there a likely problem? Explain your answer. process
- In the boost 1) Source voltage E value: (A B) -Voltage voltage range 2) Switching frequency value: M kHz 3) Voltage between load terminals (Vload) F (Voltage) 4) capacitance value 470 (microfarad) 5) Pload in load >= H (watts) Which, in microhenry, is the lowest inductance L that can keep the DC DC converter in continuous current under conditions of DC DC converter circuit, given below A=7V B= 19V M=25Khz F=45V H=8watt A) 521.44 B) 492.66 C) 103.44 D) 378.62 E) 258.55J62 For the magnetically coupled circuit shown, find K J72 the values of coupling coe fficient "k" when the power at 100 resistance is equal to (40W) if Vs=5020°v. (Ans.: 0.279) Vs 4.672Control Systems Write the state equations of the circuit shown in the figure. Obtain the Vout expression for the values of C=2F and L=3H for R=5 ohms. Obtain the Vout(t) expression by using the sum of residues method when the input voltage is a unit-step function. Comment on the stability of the system. Note:Please explain and explain in detail.
- an | Schoc X O https://ti-submission-google.a x submission-google.app.schoology.com/assignment/student/59013660 M maaoun4@hawkm. Course: Student R.. Current Students.. 6 Home | Schoology M Inbox (2,780) - 20. Q Student Portal D DocHub - Circuits Lab Simulation - 10382745 * ew Insert Format Tools Add-ons Help Last edit was made 10 minutes ago by Zainab Chebib Comic San. A E = = = E E - E - E E 100% - Normal text 12 I 3 I.. 4 10. Keep Te vUTTery vurue Tre sume unu vuru uriTTIer puruneI Cirtur TIEXT TO TIE TrST puruner circuit using 3 light bulbs. 19. Compare the brightness of 2 light bulbs wired in parallel relative to the brightness of 3 light bulbs wired in parallel. Tap circuit element to edit. a. Based on the length of the light rays, when a third light bulb is added in parallel the brightness of each bulb MacBook Pro 吕口 F10 F7 F2 F4 & * %23 3 24 4. 5 6 E Y U D F G H J K LProvide 3 example calculations involving DC Circuit under transient current conditions on series R-L and series R-C circuit.Consider a typical electrical circuit system shown in Figure 2. The circuit consisting of two resisters value R, and R2 (ohm), a capacitance of value C (farad) and an inductance of value L (henry). The input is the supplied voltage V, and the output voltage is Vo- viz R1 Vi R2 Vo Figure 2 (1). Apply Kirchhoffs voltage law or other principles to derive the input-output dynamic model equation. (i). Apply Laplace Transform to determine the model transfer function for the electrical system. (i). Estimate the transfer function for the following R; = (ohm) and R2 = (ohm), L = (henry), and C = (farad) values. Task 4 R, (ohm) R: (ohm) C (farad) (henry) Note: Refer the Table for R1, R2, C and L values. 27 13 24 4 lellll