2. Use the node-voltage method to find the total power developed by circuit and the power dissipated in the 20 Q resistor. 3Ω 42 ix + 135 V 202 10i. 1Ω
Q: Use the node-voltage method to find v in the circuit shown. 4.5 Answer: 8 V. 2.50 4.8 A( 7.50 100…
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Q: Using Thevenin equivalent find power of 50 v voltage source ? 17.5 2 5 2 2.5 Q + V. 37.52 + 125 V 2A…
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Q: 7. Find Vo in the network using Norton's Theorem 1220'v 220°A 10 10 Ix -ji07 Vo 21x
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Q: 4.6 Use the node-voltage method to find vị in the circuit shown. 60 v 24 N Answer: 48 V.
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Q: 9. Find va and is. (Hint: use the node-voltage method.) 8.75 V 20 2 20 V i3 40 2 80 0 31.25 A
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Q: Q4. Use mesh-current method to find the total power developed in the circuit: 20 Ω 10 0 50 40 V 196…
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Q: 2. Use the node-voltage method to find the total power developed by circuit and the power dissipated…
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Q: 81. By using repeated source conversion, Find the value of voltage v. 4 20 43 40V 2
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Q: Given the circuit below. Solve for the node voltage Vo. I2 13 8 A (4) 10N 20 2 30 Ω 2 A() 6 N
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Q: (d) Use superposition theorem to calculate the current, I in the circuit below 4 A 2 A 10 2 12 V
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Q: 3-Use the superposition principle to fid io in the circuit shown below. i, 10 2 20 2 + vo 40 Ω Aio…
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Q: 4.2 Use the node-voltage method to find v in the circuit shown. 60 20 42 4.5 A 10 120 O) 30 V
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Q: 2. Use the node-voltage method to find the total power developed by circuit and the power dissipated…
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Q: Question: 2. Using mesh analysis, find vo in the circuit below. 5Α 1Ω 40 V Mw+1) Μ ΖΩ + 10 1 www 4Ω…
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Q: 2. Use the node-voltage method to find the voltage v in the circuit shown below 2.50 10 4.8 A() 475a…
A: As per our guidelines, we are supposed to answer only one question. Kindly repost other questions as…
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- Calculate the lx current using the constant voltage model for the circuit in the figure. Circuit Parameters / Vx=12 V, VD ON=800 mV, R1=1.3 k2 Vx D1 VD a. 13.354 mA O b. 10.769 mA O c. 8.615 mA O d. 15.938 mA e. 6.462 mAFind the Power Dissipated in the load resistance R5 (Power of R5) by using the Mesh Current Method. Student numbers from 180207003 up to 180207037 (including) 1=4A Student numbers from 180207039 up to 190207076 (including) 11=1A V1=10 V V1=4 V V1 R2 R4 out1 out2 R3 4. 11 R1 R5 10 B1 1 V=5*V(out1)Use Kirchhoff's Law to solve for the current passing through each resistor. Compare it with what you got from the PHET Simulation A D 392 www 6V E www F 192 www 292 352 www 9V B C
- Q3) For the network shown in the figure below, determine the following: a) re b) Zini and Zinz c) Zoj and Zo2 d) Av1, Av2, and AvT +20 V 6.8 ka 30 kQ 6.8 ka 30 ka 0.5 pF 0.5 uF 1150 B-150 1.5 ka 50 uF 1.5 ka 50 uFDetermine: Van, Vbn, Vcn, la, Ib, Ic and In. If the source is worth 220v, its resistors are worth 16.13 ohms and its capacitors are 10 microF B. V A Zon b Zan WHH n tv www tw A Lo DEB45 Which of the statements for the circuit below are correct? Thanks to I- C1 and C2 capacitors, the voltage gain of the circuit increases. Capacitors II - C1 and C2 are coupling capacitors and provide isolation function between AC and DC voltages in the oudut of circuit. thithe Thanks to III - RE resistance, the voltage gain of the circuit increases. Thanks to the IV - RE resistance, the stability of the circuit increases. V- C3 Capacitor is a bypass capacitor and prevents loss of voltage gain. Capacitor VI - C3 is the coupling capacitor and has no effect on the voltage gain in the circuit. VII - The greater the value of the source internal resistance Rs, the lower the voltage gain. VIII - The greater the value of any RL load to be added to the circuit, the lower the voltage gain. Vcc Rc R1 C2 B RE Please choose one: O a. III, IV, V, VI and VII O b. II, III, IV, V and VII O c. I, II, III, IV, V, VI, VII and VIII O D. IV, V, VI, VII and VIII O to. I, II, III, IV, V, VI and VII O f. I,…
- (e) Create a list of components for the following circuit. 6v Vcc D1 R7 4k7 ZS D2 ( M RV1 470k C1 100nF 10µF C2 IC1 R2 150k RS Q4 Q5 Q4-Q14 R5 Q1 Q6 4. Q7 4k7 10 14 13 15 RTC Q8 Q9 4060 Q10 Q12 Q13 Q14 стс R1 100k _12 MR R4 4.7k R6 4.7k LED1 LED2O Find the current flow ing though the 8 chm and iz ohm recstors in the circuit shown in the Figure. Www 1oov 12Use the node voltage methode to find v0
- IH Stage: Fundamentals of El- Example: R Ledure 6- Methods of Analysis - Mesh Analysis 2015-2016 1 Stage: Fundamentals of Electrical Engineering Find current i in the circuit in the below figure. Homework: 6.3 ww 4 A ww ww 30 V Answer: 8.561 A. Homework. nswer: i1 3.5 A, 12 =-0.5 A, 13 = 2.5 A. fomework: Use mesh analysis to find the current io in the circuit in figure below. 6.4 10Ω 82 60 V 3i, wer: 1.731 AIn the circuit given below all resistors are in kilo ohms. Solve the circuit usingnode-voltage method and find V O . Use the negative terminal of the voltage source as reference node.Procedure: Vcc = 20V 1. Connect the circuit shown in Figure. 2. Measure VB, VE, VC and VCE R, = 22 k2 3. Measure the voltages VR1 and VR2. Calculate the currents 11 and 12 using Ohm's Law. Rc = 3 k2 4. Using Kirchhoff's current law, calculate the current IB. Then, measure the currents IE and IC values. IB R, = 6.8 k2 1, IE %3D RE = 680 2 5. Confirm that IB calculated using KCL is equal to the IE-IC 6. Please come out with your own tables to record the measured data. www ww