24 Use source transformation to find the voltage V, in the circuit of Fig. a. P4. View the full answer Answer. Find Vo. Draw the equivalent circuit, showing terminals a and b on your circuit, showing the 4. *4. Solution: First of all, find the voltage across the terminals of the source while keeping the source terminal open. Transform the given voltage source into its equivalent current source representation. 6 V Chapter 4 Step 1. Find Vo in the network shown using source transformation. Find the parameters a of the circuit. Problem 1P: Visit your local library (at school or home) and describe the extent to 142 Techniques of Circuit Analysis 4. 100 1502 www www 50 2 40 Ω. 10 - Using source transformation, find i in the circuit Ch. 13∘)V=96sin4000t V. Analyse the circuit in Figure 3 and calculate V. By Ravi Teja. 87. Find the power absorbed by the 3kΩ resistor. Mar 20, 2024 · March 20, 2024. Chapter: 4 Problem: 4. Source transformation methods are used for circuit simplification to modify the complex circuits by transforming independent current sources into independent voltage sources and vice-versa. 85 For Prob. 100. Homework: Obtain vo in the circuit of the below figure using source transformation: 8. There’s just one step to solve this. 2 Ω j0. 001Vab 801 50 kΩ Vab -obe 3) Referring to following circuit, use source transformation to determine the current and power Use source transformation to reduce the circuit between terminals a a a and b b b shown to a single voltage source in series with a single resistor. Step 4. 107 For Prob. Music: bensound. Our expert help has broken down your problem into an easy-to-learn solution you can count on. 63 a) Use source transformations to find vo in the cir- PSPICE cuit in Fig. 71. (15 Marks Figure 2 b) Obtain the admittance parameter equivalent circuit of the two-port in Figure 3. 7 using source Mar 21, 2024 · Our goal is to find the voltage \(v_o\) across a specific 12-ohm resistor using source transformation. 93 Chapter 4, Solution 25. 30 Use source transformation on the circuit shown i Fig 4. Figure P9. 975 mA when an ammeter with an internal resistance of 20 is used. Given: I, Ri, R2. Use source transformation to find the current IO in the circuit below. 25 Obtain vo in the circuit of Fig. Determine the Thevenin and Norton equivalents at terminals a-b of the circuit in Fig. com Apr 24, 2023 · We can transform the 6A current source and the 492 ohm resistor into a voltage source in series with the resistor. To find \(I_{sc}\), short terminals \(a\) and \(b\) and calculate the current through the short. 45 using source transformations. Adding resistance in a parallel manner will give us the following circuit. Show transcribed image text. Use source transformation to find loin the given circuit where V=8 V. comAlexander Sadiku 5th Ed: Fundamental of Electric Circuits Chapter 3: https:/ Question: 3) Obtain vo in the circuit shown in figure (c) using source transformation. 90, use source transformation to find i. Previous question Next question. paid Apr 29, 2016 · Obtain Vo in the circuit of Fig. Check your result using PSpice or MultiSim 2 A 9Ω Ww ЗА 4 92 5Ω 6 A 2 30 Figure 4. engineering Assume that V o = 1 V V_o=1 \mathrm{~V} V o = 1 V and use linearity to calculate the actual value of V o V_o V o in the circuit below. 98 to find i, 242 602 ww 12V 300 10 2 0. Use source transformation to find Vo in the network shown. Fundamentals of Electric Circuits 6 Using source transformation, find \(i\) in the circuit of Fig. 10 - Find io in the circuit of Fig. 70 v Figure 4. (1 b 62 412 ww 120 V 30 6A 20 -ode 2) Obtain the Norton equivalent at terminals a-b of the below circuit. i, = 12= 76 When v, = 24 V, 24 i, = iz = 76 showing that when the source value is doubled, i, doubles. 18. 2 A 922 3 A ( 4 Ω 5 Ω 6 A + vo (+ 292 30 V Figure 4. 25 Obtain v, in the circuit of Fig. 10 - Using Fig. The current at the terminals of the source is measured to be 9. 6 Ω - M 9Ω 10Ω 40Z 0°ν V. 004vo 700 R w 6700 u VO R COMA M Circuit B: VB RB + 700 VO R1 04 Calculate the resistance RB. Problem 3. 17. 40 V 892 ww +Vx 3 A 10 S2 www 10 92 www >2Vx 4. Use R= 7 k. 12 V 6Ω ww 5Ω www Vo + 2A 3 Ω ww 4Ω ww 12 Ω 19 V. -j3Ω 4Ω j4Q www J2ΩΞ 80/0° V 2 Q V The output voltage Vo. 95, design a problem to help other Ch. Publisher: Robert L. = 100 Volt. Obtain vo in the circuit using source transformation 2Α 9Ω ν 3 Α ( 4Ω 5 Ω Ο) 6 Α. Question: 4) Find vo (t) in the circuit below by using source transformation when f=60 Hz. I 8 k92 w + 2V + 0. Using source transformation in the circuit below: a. The sinusoidal voltage sources are v1v2=240cos (4000t+53. Make a series of source transformations to find the voltage vo in the circuit in Fig. Determine the Thevenin equivalent circuit seen from terminals a-b in the circuit shown in Figure 2. yo Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. 2 A 992 3 A Www 432 5 Ω 6 A VO + HU 292 30 V 4. 4 - Use superposition to solve for vx in the circuit Ch. Playlists:Alexander Sadiku 5th Ed: Fundamental of Electric Circuits Chapter 3: https://www. Step 3 : Equate the two load currents and obtain expressions for I and Rsh and draw the equivalent source. Engineering. 12 Determine v, in the circuit of Fig. b) Thevenin equivalent theorem. Obtain vo in the circuit shown below using source transformation. Required information Consider the given circuit where I = 8 A. + V₁ SL 1/sC 1/sC V₂. 87 using source transformation. 4Ω -j3Ω j2Ω 2Ω The output voltage Vo Hints References eBook & Resources Hint #1 Check my work Here’s the best way to solve it. Please report your answer so the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees. 4. 2V. paid Once an answer is submitted, you will be unable to return to this part. 109, find the Thevenin equivalent between terminals a and b. May 10, 2024 · Short-Circuit Current (\(I_{sc}\)) - This step might not be directly needed for source transformation but is useful for understanding. 2) Find Vo in the circuit below using source transformation . 8Ω ww 50 sin 5t V + 0. There are 2 steps to solve this one. = 10×10. 2 A 9 Ω W 3A 42 512 6A w + WW 2Ω 30 V Figure (c) 5) Find vx in figure (e) using source transformation. 20 22 0. Source transformations are implemented using Thévenin’s theorem and Norton’s theorem . for the given circuit to get the value of V0 using source transformation as we know that. 10 Ω WW a 12 Ω 6 20 Ω -W WWW + υ, + Ox 50 V 1 + 40 Ω (1) 8A Α +1 40 V w 21. 17 Use superposition to obtain v, in the circuit of # Fig. Transcribed image text: Find Vo using source transformation and voltage division Using a sequence of source transformations and circuit simplifications, simplify the circuit below so that Vo can be found using voltage division. Question: 3. We have step-by-step solutions for your textbooks written by Bartleby experts! Use source transformation to find i o in the circuit of Fig. Find vo (t) in the circuit below. See Answer. 1Ω j3 Ω 0. Combining both current sources, we obtain. 6°) V) 18) Use the method of source transformatio. 001Vab 801 50 kΩ Vab -obe 3) Referring to following circuit, use source transformation to Answer to Solved Obtain Vo in the circuit of Figure below using source | Chegg. 7 [kS2] resistor. (a) If adding a 2-k resistor across the source terminals causes the ammeter Question: 4. 20 Ω 20 V 10 Ω a) Use source transformation to find Vo in the circuit Figure2. 04 F. May 8, 2024 · An electrical source transformation (or just ”source transformation”) is a method for simplifying circuits by replacing a voltage source with its equivalent current source, or a current source with its equivalent voltage source. 63 520 V 16Ω 260 Ω 4Ω 1 A 40 Ω 250 Ω. 445 A Hydrocarbon A has the formula C 9 H 12 and absorbs 3 equivalents of H 2 to yield R, C 9 H 18 , when hydrogenated over a Pd/C catalyst. Experiment Vs Vo 12 V 4V 2 ? 16 V 3 IV ? 4 ? -2V V Linear circuit Problem 2 Use source transformation t find the current and power in the 8-A resistor 822 322 w 9A 10 Ω 622 45 V w w Problem 3 Obtain the Thevenin Textbook solution for Fundamentals of Electric Circuits 6th Edition Charles K Alexander Chapter 4 Problem 32P. b. 5. They are the open circuit voltage, voc, the short circuit current, isc and the Thevenin resistance, Rt. 96 Use the principle of superposition to find the volt- PSPICE . 1) . Ob- tain node voltages V1 and V2 and verify the currents obtained in Problem 4. The value o …. Question: For the circuit shown in Figure 1, determine the voltage Vo using source transformation method. Apply source transformation to find vx in the circuit below. To obtain VTh, we apply KVL to the loop. 3 by using a) Source transformation. (15 points). Obtain Vo in the circuit of Fig2 using source transformation 2A 9 912 w w 3 A 422 512 6A Fig 2 + 5 w 2 Ω 30 V This problem has been solved! You'll get a detailed solution from a subject matter expert that helps you learn core concepts. Boylestad. 68. For the circuit shown in Figure 1, determine the voltage Vo using source Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. But Vo = 1 Okl IOkQ 20 ICQ —70 + = O VTh = 60 V To find RTh, we remove the 70-V source and apply a I-V source at terminals a-b, as shown m the circuit below. c Find the power developed by the 1 A current source. 2 uF 80 Ω (Answer: 3. 2) Find Vo using source transformation (8 points) 6 ΚΩ 2 ΚΩ + ww 3 kΩ w 6V+ 4 ΚΩ V. Find the Thevenin equivalent at termmals a-b of the circuit in Fig. This gives us a circuit with a 22V voltage source, a 992 ohm resistor, a 3A current source, and a voltage source Vo in series. 6. Electrical Engineering questions and answers. 126 using PSpice. 4 - Referring to Fig. Ch. Find the current flowing through the 3kΩ resistor. These definitions are used to determine the values of the parameters for a particular Our expert help has broken down your problem into an easy-to-learn solution you can count on. 1. 4 - Use superposition to find Vo in the circuit of Ch. ISBN: 9780133923605. Question: Use source transformation to obtain Circuit B so that it is equivalent to Circuit A. 22 For the circuit in Fig. Check your result using PSpice. arrow_forward. Check your result using PSpice or ML MultiSim. c. (15 points) 6V 12ΚΩ 2mA O 6ΚΩ 4ΚΩ Vo 24V. Question: 4) Find Vo (t)in the circuit below by using source transformation (12 points) 1 Ω j3 Ω 0. Expert-verified. 125. 522 1022 2 A 522 492 +) 20 V W Figure 4. 20 Ω W + 20 V 20 Ω 10 Ω ΑΛΛ αο -ob 10 Ω 5 A 10 Ω 10 Ω 30 V + Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. 15 using the superposition theorem. c) Norton equivalent theorem. Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. Unlock. (15 mark a) What is meant by reactive power and write its expression. + ο ΑΝ 2Ω + 30 V The value of vo in the given circuit is. Question: 9. 192 1. 90 For Prob. 17) Use source transformation to find vo in the circuit in Fig. Solution : We transform the voltage source to a current source and obtain the circuit in Figure. 3 vo = 2i = –6. 4 - Use source transformation to reduce the circuit Ch. Take the voltage probes from top of the window in ORCAD PSPICE software tool to Estimate the value of voltage V0 across 2 ohms resistor. 22. 63. 41. Use source transformation to find [0 in the given circuit where V: 8 V. Find the voltage vo in the circuit shown in Fig. Jan 31, 2022 · VIDEO ANSWER: To solve a circuit using superposition, the first step is to turn off or suppress all but one input to suppress a… Get 5 free video unlocks on our app with code GOMOBILE Three parameters characterize Thevenin and Norton equivalent circuits. Question: 4. 44 Use mesh analysis to obtain io in the circuit Use source transformation to find vo in the circuit 4 A 400 V 50Ω SA 3 A 40 sov 3. Let’s find v 2 in the following circuit using source Buy Notes Here ↓ :https://play. 93 using source transformation. 922 3 A 422 52 6A + 292 30 V Obtain voin the given circuit using source transformation. 10 - Use the concept of source transformation to find Ch. Use source transformation to find correctly Vo in the circuit of. Step 1. Use the concept of source transformation to find Vo. View the full answer Step 2. Question: Chapter 4, Problem 32. Chapter 4, Problem 32. In [a 49 v 9 3n 0% The current [0 in the give Ch. These can be replaced by an equivalent 15 Ω (= 10 Ω + 5 Ω) resistor. Calculate Vo in the circuit of Fig. 89, design a problem to help other Ch. 10 S2 12 122b 2012 a WW + Ux 40 Ω 8A 50 V 40 V Figure (d) Step 1. Once an answer is submitted, you will be unable to return to this part. Nov 17, 2020 · Find io in the circuit of Fig. Section: Chapter Questions. Textbook solution for Fundamentals of Electric Circuits 6th Edition Charles K Alexander Chapter 4 Problem 26P. 25 22 W + 6 V 292 18 V Figure (e) 4) Apply source transformation to find vx for the circuit in figure (d). Use source transformation to find i, in the circuit of Fig. 67 below. Discuss its significance in power plant and Distribution Company. 18 has been redrawn in Fig. Check your result using PSpice or MultiSim. Thank you! Textbook solution for Fundamentals of Electric Circuits 6th Edition Charles K Alexander Chapter 4 Problem 25P. 1) Given the circuit below, obtain the Norton equivalent as viewed from terminals a-b. Use the concept of source transformation to find Vo in the circuit given below, where A--R Ω. 97. d) Verify that the total power developed equals the total power dissipated. MULTISIM b) Find the power developed by the 520 V source. Find the voltage Vo. Introductory Circuit Analysis (13th Edition) 13th Edition. 6Volts. 3 kn 2 kn 1840 2 kQ 10 15 V b Fig. Question: . NOTE: This is a multi-part question. for every transformation. 9Ω 3 A 4Ω 5Ω 6 A ら 2Ω 30 V Obtain v o in the given circuit using source transformation. Finally, ${{V}_{0}}=20V~$ Source Transformation Example with Dependent Source. They are the open circuit voltage, voc , the short circuit current, isc and the Thevenin resistance, Rt . 40. 10 - Rework Prob. Page 163 Figure 4. 93For Prob. 04 H 10 cos 100r V 0. P9. 19 Use superposition to solve for u, in the circuit of Fig. 30 Ω 10 Ω 20 Ω ww ww- ww + v, 90 V 60 Ω 6 A 30 Ω 40 V Figure 4. 107. 42 For the circuit in Fig. Obtain v o in the circuit of Fig. Figures 5. The circuit in Figure 2 can be further simplified as it has a 10 Ω resistor in series with a 5 Ω resistor. . b) Superposition theorem c) Thevenin theorem d) Norton theorem 2A 922 3A 492 5Ω 6A VO 2. electronics. 80 using the superposition principle. 80. Our goal is to find the voltage \(v_o\) across a specific 12-ohm resistor using source transformation. 4 mH 5 cos 10%, v 0. We have step-by-step solutions for your textbooks written by Bartleby experts! Use source transformation to find i x in the circuit of Fig. The simplified circuit is shown in Figure 3 (a). See full list on electricalacademia. The parallel combination of 5 Ω resistance and (3 + j4) impedance gives. 13∘)V,v2=96sin4000t V. This voltage (V) is given as. We convert 250V voltage source into 10A current source. 10 Find the steady-state expression for vo (t) in the circuit shown by using source transformations. Fundamentals of Electric Circuits 6. 4-4, and the associated text, define these three parameters. com/store/apps/details?id=electrical. Source Transformation: A Source transformation is the p Question: 1) Given the circuit below, obtain the Norton equivalent as viewed from terminals a-b. 32 30 V. - - 75. Using superposition find the current io (t) in the circuit below. Question: Obtain vo in the circuit shown below by using Thevenin's theorem: By using source transformation convert the 3A current source with . To solve above given circuit by source …. There are 2 steps to solve Oct 7, 2021 · Use source transformation to find in the circuit of Fig. 93 For 四 Prob. 2 2A 92 ЗА 512 6A 2 212 30 V Answer: 9V ; Use mesh analysis to find i, (t) in the circuit shown in Fig. −+ – + + − − + +− Applying KVL to the loop gives, –(4 + 9 + 5 + 2)i + 12 – 18 – 30 – 30 = 0 20i = –66 which leads to i = –3. 8) Given circuit is. These definitions are used to determine the values of the parameters for a particular circuit. 4 - For the circuit in Fig, 4. Calculate Vx in the circuit of Figure. 2ΚΩ 2ΚΩ Vo 6V 2ΚΩ 2ΚΩ 1) J4mA 5. ROM 1216 7091 2,20 500 VO M lon Superposition tuedene The total current (ory voltage ? any part of a linear circuit {quals the algebraic sum of the currents poroduced Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. Use superposition to obtain vx in the circuit of Fig. Transcribed image text: Use source transformation to find Vo in the circuit in the following figure if R-5 kΩ 3vo 3 mA The voltage Vo is. +) 12V. (2) using the method of source transformation. We have step-by-step solutions for your textbooks written by Bartleby experts! Obtain v o in the circuit of Fig. 4-3 and 5. Source Tran View the full answer Step 2. Figure 2. The sinusoidal voltage sources are v1=240cos (4000t+53. Transcribed image text: 4. 7 [kN2] resistor, and showing the numerical values of the circuit components. 92. Verify your solution using the mesh-current method. + 30 V + 20 v + R WW Vo W 2 ΚΩ 5 ΚΩ The value of Vo in the circuit is V. w + V- v 352 VO The current loin the given Ch. 2) Using Mesh-Current analysis, find Vo and verify your solution of part afined. 2K2 2K2 + Vo 6V 2K2 J4mA 5. A transducer is modeled with a current source Is and a parallel resistance Rs. Step 5/8 Question: 4. Electrical Engineering. Answer. 2A 18 V 492 622 T° -ob 3A 522 10 V Find V o using source Transformation. Transforming only the current source gives the circuit below. Question: Obtain v, in the circuit using a) source transformation. 25. 20 Q 10 ICQ Q . 108 For Prob. V = IR. 9 3 using source transformation Obtain vo in the circuit shown below using source transformation. Chapter1: Introduction. Find Io in the circuit below using superposition. 2Α 9Ω ΑΛΛΑ W 3Α 4Ω 5Ω 6A -- 2Ω 30 V Figure 4. Oct 22, 2021 · بسم الله الرحمن الرحيم In this video you will learn about Practice Problem 4. Use the concept of source transformation to find Vo in the circuit given below, where A -7 Please report your answer so the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees. ix + 2 Ω 6 A 4A 812 + 4ix 4. 45 Find the steady-state expression for vo (t) in the circuit of Fig. Identify the elements in the circuit that can be transformed from voltage sources to current sources or vice versa to simplify the circuit analysis. Question: Obtain Vo in the circuit given below. Question: Find Vo in the below circuit. Here’s the best way to solve it. This helps in understanding the circuit's behavior but is not always necessary for source transformation. Step 3. By using source transformation. 412 WW 0. Figure 3 35 V 10 kΩ wa 15 kΩ w a + 5 kΩΣ 8 mA 30 kΩ 25 kΩ w VO b. The value of RThis 1 and the value of VThis V. 45. Thus, the strength of voltage source will be 100 V. 96)A 0. 91, use source transformation Three parameters characterize Thevenin and Norton equivalent circuits. Question: Use the concept of source transformation to find VO in the circuit given below, where A=-j2Ω. Circuit A: R2 500 0. [4] 25 2 8A VO 100Ω 20 Ω DC 250 V. Try focusing on one Electrical Engineering questions and answers. 2 A 992 3 A 492 522 6A + Vo 22 30 V Figure 4. Obtain vo in the circuit of Fig. 93 using Ch. 2Ω j0. 2Α 9 Ω WW 3 A ) ww 4Ω 5Ω 6A + υο (+ - 2 Ω 30 V 20. 6. engineering. Problem 5. 10 S2 ww 0. (3a), where. We can then use Kirchhoff's laws to write a system of equations and solve for Vo: 22 - 992*i1 - 3 - Vo = 0 Electrical Engineering. 3. Using source transformation, find the voltage Vo in the circuit shown in Figure 5 A 2Ω 10 Q Vo 10 Ω 2 Vo 12 V Fig. 126, find the Thevenin and Norton equivalent circuits at terminals a-b. 3 Ω -j19Ω T20 Figure 3. Problem 1 For the linear circuit shown below, use linearity to complete the following table. Buy Notes Here ↓ :https://play. Obtain Vo in the circuit of Fig. 90, use source Ch. 4 - Using Fig. Here’s how to approach this question. 2 A a 492 W 622 W 4 A www 3292 RL Vs b For the circuit, obtain the Thevenin equivalent at terminals a-b. 49 Find vo and i, in the circuit Use source transformation to find ix in the circuit shown in 3Ω 5Ω 24 mA 10Ω 2, 2Ω 54 V. 2 5 Obtain v o in the circuit of Fig. 91, use source transformation Here’s the best way to solve it. 10. Figure 4. google. j42 2 , 3/0 A Use nodal analysis to obtain Vo in the circuit of Fig. Problem 4. 61. 615 cos (10't-40. The output voltage VO=/1°V. com Nov 1, 2016 · Step 2: Voltage-to-Current Source Transformation. 10 - Use source transformation to find Io in the Ch. 2. 93 For Prob. 19 using source transformation. Question: 1) . 51 60 V Figure 4. 4-35 for solution by the node voltage method. 4 . 17 Use superposition to obtainυ, in the circuit of # Fig. 25 Obtain vo in the circuit of Fig. In this scenario, we are given a circuit with a voltage source or a current source and resistors. Transformation of current source to voltage source : We will follow the same steps followed for the transformation of a voltage source to current source and we get, V = IRsh and RS = Rsh Thus the magnitude of the voltage of equivalent May 8, 2020 · Example: Convert the following current source to equivalent voltage source. Find Vo in the below circuit. 60 For the circuit in Fig. 93 using source transformation. Fundamentals of Electric Circuits 6 Obtain vo(t) for the Question: Consider the given circuit where ,-9 A. Figure 4. Figure P4. Given that, View the full answer Step 2. Transcribed image text: Use source transformation to find v_0 in the circuit of fig. Dec 19, 2021 · About Press Copyright Contact us Creators Advertise Developers Terms Privacy Policy & Safety How YouTube works Test new features NFL Sunday Ticket Press Copyright Here’s the best way to solve it. 2 F 1 H 4 cos 10t A ll. [1] Calculate the value of the dependent voltage source VB. Question: 1) Using Source Transformations, find Vo in the circuit below and show all the steps of the source transformation in the solution by redrawing the circuit for every transformation. Chapter 4, Solution 40. Please report your answerso the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees. 6 Ω + 9 ΩΣ 10 ΩΣ +\40/0° V VO -j3 Ω -j19 Ως. 94. For the circuit shown, use source transformations to obtain an equivalent circuit as seen by the 4. From PSPICE , WE can observe voltage across 2 ohms is, V0 = -6. Author: Robert L. 19 The network of Problem 4. 85. Created by Chegg. 2 A 992 3 A Www 432 5 Ω 6 A VO + HU 292 30 V *4. 7 using source Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. Fia 4. To analyse the circuits we can apply a simple voltage and current divider techniques by using these transformations. vy jl nt cg nv fc ql vz pc xy