Apply source transformation to find vx in the circuit. 10 Q2 12 Q b WW + Ux 20 9 100 V 40 $2 8 A 40 V.

Apply source transformation to find vx in the circuit 12 k 36 V + _ 2k 10 k 24 kΩ b I1 b I1 Using source transformation, we obtain the circuit below. Transform the voltage source of 30V in series with the 4-ohm resistor into a current source of 7. The question asks to apply source transformation to Apply source transformation to find Vx in the circuit 20 Ω 24 Ω 20 Ω Λ ΛΝ +V, - 20V 80Ω 10Υ IA 20Ω w Answer to Apply source transformation to find vx in the given Apply source transformation to find Vx in the circuit below. Step 1. 10Ω a 12Ω b 20 Ω m@ @m @v 50 V (+ 40 Ω The value of v, in the given circuit is Γ 1-v V. Apply source transformation to find Vx in the circuit shown below Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. Determine the values of V′ and R′. Math Mode Question: Problem 4 Find voltage Vx in the circuit below. See Answer See Answer See If you are a student using this Manual, you are using it without permission. 19. below, find Vx and ix. Show more Question: Apply source transformation to find vx in the given circuit where V= 45 V 10Ω a 12Ω b 20 Ω 50 V (+ 40 Ω R/ The value of vx in the given circuit is Vi Show transcribed image text There are 2 steps to solve this one. Apply source transformation to find vx in the circuit below. Question: Apply source transformation to find vx in the circuit. V In the given circuit, we can see that there is a current source (2 A) in parallel with a resistor (4 Ω). Source transformation is to use Ohm’s law to replace an existing voltage source in series with a resistance, with a current source in parallel with the same resistance, or vice versa. + Ux 50 V (+ 10 22 ww www a 40 92 The value of vx in the given circuit is ***** ***** 2012 ww 8 A V. Doing that may give you the opportunity to simplify the circuit in the next step, e. 4 . Apply source transformation to find v x in the following circuit: There’s just one step to solve this. 12Ω b 50 V 10 Q2 ww a +Vx 40 Ω The value of vx in the given circuit is 2002 SA -58. figu Solved find vx in the circuit shown below. Question: *2. 10? a 12. Source transformation in a circuit starts with changing the given source from its existing form, either as a voltage source in series with a resistance or as a current source in parallel with Source transformation means replacing a Thévenin source by an equivalent Norton source or vice versa. 5. Find the Thevenin equivalent looking into terminals a-b of the circuit shown below and s Question: 4. 31. 10 Ω a 12Ω b 20 Ω Vy 50 V (+ 40 Ω Show transcribed image text Here’s the best way to solve it. across Ro for the circuit of Figure P2. 027 - Multiple step source transformation analysis Apply source transformation to find Vy in the given circuit where V = 60 V. 31 Use resistance reduction and source transformation to find Vx in the circuit of Fig. 4 - Use source transformation on the circuit shown in Ch. Question: 1. 5 Fig. Whether you' Apply source transformation to find vx in the given circuit where V=45V. 4 - Obtain vo in the circuit of Fig. 10 Ω 12 Ω 6 20 Ω a + x 100 V (+ & 40 Ω 8A +) 40 V Not the question you’re looking for? Post any question and get expert help quickly. VX , V 10Ω a 12Ω 10Ω 60 V (+ 40 Ω 8 A 40 V QUESTION 5 Find the maximum power transferred to resistor R in the following circuit Pmax , mW 22 kΩ 40 Ω 0,003% Question: Apply source transformation to find vx in the given circuit where V 40 V. 7 using source Question: Apply source transformation to find vx in the given circuit where V=55 V. Whether you' Apply source transformation to find vx in the given circuit where V=60V. Apply source transformation to find vy in | Chegg. Show transcribed image text There are 3 steps to solve this one. 10. Tutorial (Source Transformation) Question: Apply source transformation to find vx in the given circuit where V 65 V 10Ω a 12Ω b 20 Ω 50 V (+ 40 Ω R/ The value of Vx in the given circuit is V. 10. Homework 4 - Problem 2Apply source transformation to find vx in the circuit. If a circuit has two or more independent sources, one way to determine the v Apply source transformation to find vx in the circuit. 9. Math Mode Ch. 1092 a 122 b 2022 WWWW + Wi- 4092 8A Ev 50 v The value of Vy in the given circuit is -70 v. Obtain vo in the circuit shown below using source transformation. 5V. It is an interesting Welcome to the Electrical Engineering channel! Here you’ll find tutorials, lectures, and resources to help you excel in your studies and career. 27 Apply source transformation to find v in the circuit of Fig. 4. A black box with a circuit in it is connected to a variable resistor. 12 k 3 mA 12 k 24 k 12//24 = 8 kΩ 8 4 Apply source transformation method to find out the current I in the following circuit. Show transcribed image text Apply source transformation to find vx in the given circuit where V=60V. 04) A converter is feeding an RL load as shown in Fig. 4 - Use source transformation to find Io in Fig. The Apply source transformation to find vx in the given circuit where V=45V. Unlock. 4 - Apply source transformation to find vx in the Ch. 4 - Use source transformation to find the voltage Vx Ch. Question: 2. Problem 4. 10 Ω WW a 12 Ω 6 20 Ω -W WWW + υ, + Ox 50 V 1 + 40 Use superposition to find Vx in the circuit below. 93 using Ch. 99 using Question: Exercise 2: a- Apply source transformation to find vx in the circuit of Figure 2 . 7 A. There are 3 steps to solve this one. Be careful – the 12 Ohm resistor needs to not be source transformed. 8 200 7Ω 14 Ω w . First, we can apply a voltage source transformation to the 20V source and 10Ω resistor in parallel. Redraw the circuit when necessary. Question: Using source transformation, find Vx for the circuit below, where I = 5 A. Without the complete circuit details, it's not possible to provide an answer. (c) [3 marks] Determine the value of Vo. Si 50 Ω 40 Ω The value of ix in the given circuit is A. Now let us apply current-to-voltage source transformation for the circuit elements indicated in Figure 7(b). 10Ω 4x 15Ω O. 95 10 Ω Μ α 12Ω W + Vx 40 Ω b b 20Ω ww 8 A + 40 V fort Show transcribed image text There are 2 steps to solve this one. a 20 Ω ΑΛΛΑ 100 V + 40 Ω 8A 40 V Not the question you’re looking for? Post any question and get expert help quickly. (a). Question Data. 5? 6A??2? t) 20V 10. Homework 4 - Problem 3 Find the Thevenin and Norton equivalents at terminals a−b of the circuit. See Answer See Answer See Answer done loading Question: Apply source transformation to find vX in the given circuit where V=80 V. 1. 99 using Step 1/4 1. 99 using Welcome to the Electrical Engineering channel! Here you’ll find tutorials, lectures, and resources to help you excel in your studies and career. Please write detailed explanations and step by step explanations for each problem. Vx 122 w 122 292 } Hull 22 0. 24 Use source transformation to find the voltage Vx in the circuit of Fig. Show transcribed image text There are 2 steps to solve this one. 4 - Use source transformation to find vo in Apply source transformation to find vx in the given circuit where V=60V. Hint, KVL can be applied immediately to obtain Vx. Whether you' Q . Show transcribed image text Here’s the best way to solve it. ЗА 8Ω 10Ω 40 V (+ 10Ω Figure 4. The value of vx in the given circuit is V. 99 using Q: Determine vx in the circuit of the figure using source transformation. To find Vx in a circuit using source transformation, To apply source transformation to find Vx in the given circuit, where V = 50 V, we need additional information about the circuit's configuration, such as the resistance values and how they are connected with respect to the voltage source and Vx. 12Ω b www. Source Transformation An equivalent circuit is one whose v-i characteristics are identical with the original circuit. 4 - Use Ch. 2 with Vs = 220 V, R = 52, L = 7. Apply source transformation to find v x v_x v x in the circuit shown. Welcome to the Electrical Engineering channel! Here you’ll find tutorials, lectures, and resources to help you excel in your studies and career. Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. By using conversion from voltage source to current Apply source transformation to find vx in the circuit shown below. Question: Problem 04. Use source transformation to find [0 in the given circuit where V: 8 V. The voltage Vx in the given circuit is V. 114 Chapter 4, Solution 47 Since VTh = Vab = Vx, we apply KCL at the node a and obtain 50 − VTh VTh Question: Use source transformation to find the voltage Vx in the given circuit where I = 6 A. This from here is connected to the source that has a positive terminal and a negative terminal, and this from here is connected to the inductor. Solution for Apply source transformation to determine the voltage Vx: When finding RTh, current sources in the circuit should be Transcribed Image Text: Apply source transformation to determine the voltage Vx : 1092 www 50 V a Ch. Question: Use source transformation to find the voltage Vx in the given circuit where I=8 A. 16 16 12 10 A 4 16 16 + Vx _ 4 8 6 10 A 12 6 4 8 + Vx _ Apply source transformation to find vx in the given circuit where V=75 V. The value of vx in the given circuit isV. Use source transformation to find ix in the given circuit where V = 50 V. 1022 a 122 b 2012 100 v6 4082 8A 40 V Show transcribed image text Here’s the best way to solve it. 24. Homework Statement Apply the source-superposition method to the circuit below to determine: (a) Vx’, the component of Vx due to the 1 A current source alone. Question 4. V V2 WW +1 Ry R2 - Vs + t. Problem 5 : Apply source transformation to determine v x in the following circuit There are 2 steps to solve this one. Despite the correct answer quickly found by the OP, I was interested to find a symbolic solution to this problem using the extra-element theorem or EET introduced by Dr. [latex]10 || 40=8 ~ohms[/latex] Transforming the current sources to voltage Search To find Vx in the given circuit with I = 10A using source transformation, convert the current source to a voltage source and calculate the equivalent impedance. 5, and E=0 V. Use superposition to find vw in the circuit of. Answer. The individual is able to solve the problem by realizing that the resistors in between the current source are in parallel and using this information to perform source transformation. Draw the Thevenin equivalent circuit for the given circuit to the left of terminals a Question: Apply source transformation to find Vx in the circuit below. In summary, the conversation discusses using resistance reduction and source transformation to find Vx in a circuit with multiple resistors and a current source. Source transformation involves converting a voltage source and a series resistor into a current source and a parallel resistor, or vice versa. 1022 20 Ω a . 24 Answer to 4. 3 Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. 26. V BUY Introductory Circuit Analysis (13th Edition) Apply source transformation to find vx in the circuit. (b) [4 marks] Determine the values of Vx and Ix. 92 For Prob. 12Ω b 2002 www 50 V 1+ 1092 www www 40 92 Vx The value of vx in the given circuit is 8 A V. This simplifies circuit analysis. Here’s the best way to solve it. Whether you' Question: Apply source transformation to find vX in the given circuit where V=55 V. Check your result using PSpice or MultiSim. 95, design a problem to help other Ch. All resistance values are in ohms. (c) Vx’’’ , the component of Vx due to the 3 A current source Apply source transformation to simplify the circuit. Calculate (a) the minimum instantaneous load current (b) the peak instantaneous load current, (c) the maximum peak-to See Answer See Answer See Answer done loading Question: Apply source transformation to find vX in the given circuit where V=40 V. Convert both the 50V voltage source with the 10Ω resistor and the 40V voltage source with the 20Ω resistor into equivalent current sources. Apply source transformation to find Vx in the circuit (30 points) 202 2022 24 22 + V, - 40V 8092 10V 2A 2012 Solution: 2. Si 50 Ω Question: Figure 2. When voltage source has zero resistance in this case, ${{I}_{s}}=\frac{{{E}_{s}}}{R}$ $R=0$ So; ${{I}_{s}}=\infty $ 2. 95. These are two certain situations when we cannot do source transformation. 82 102 + V- w 40 V + 10Ω 2V, The voltage Vx in the given circuit is V. Question: For R1=4, R2=5, 11=1 A, 12=4 A & K1=1, apply source transformation to find Vx in the circuit shown below + R2 12 11 R1 vx + Kli, Vx= Show transcribed image text Here’s the best way to solve it. 10 - Rework Prob. Middlebrook in the 90s. 5 V 16 . 44 Apply source transformations to find the voltage V. Solution: + Vx _ 4 Figure P2. Beginning with the bottom node of the 5 V source, we apply KVL clockwise around the loop: -5 - 7 + vx = 0 so, vx = 12 V Note, KCL applies to this circuit, but only tells us that the same current (ix) flows through all three elements. 27 Apply source transformation to find vx in the circuit below. Using source transformation, find Vx for the circuit below, where I = 5 A. ; Voltage to Current Conversion: This conversion involves calculating the current supplied by a shorted voltage source and The source transformation in electrical engineering to find the voltage Vx for a given circuit with a 50 V source. Apply source transformation to find vx in the given circuit where V = 65 V. 10 - Using source transformation, find i in the circuit Ch. Use source transformation to find the voltage Vx in the given circuit where I = 3 A. Apply source transformation to find vx in the circuit of Fig. 93 using source Ch. There are 4 steps to solve this one. 10 - Use the concept of source transformation to find Ch. Transform 50 volt voltage sources series with 10 ohm resistor into equivalent current source in parallel with 10 ohm resistor. Use source transformation to find the voltage V x V_x V x in the circuit below. 31: Circuit for Problem 2. NOTE: through source transformation and consolidation, circuit can be solved using only Ohm's Law. We can transform this into a voltage source in series with the same resistor. 85. 24 Apply source transformation to find vx in the given circuit where V=60V. w R1 ZRI Ro V Figure P2. 10 - Use source transformation to find Io in the Ch. 4 - Use source transformation to find vo in the Ch. Visit http://ilectureonline. See Answer See Answer See Answer done loading Question: Apply source transformation to find v_x in the given circuit where V = 60 V. 024 - Source transformation and dependent sources Use source transformation to find the voltage Vx in the given circuit where l 8 A 8Ω 10Ω 40 V (+ 10Ω 2V, The voltage V in the given circuit is V. Assume that R = 22, Ry = R2 = Ro = 412, Vs = 4V, and Is = 0. Take V 17 V Vs 3Ω www + vx A: Apply source transformation to get vaue of Vx. The voltage Vx in the given circuit is Not the question you’re looking for? Obtain the Thèvenin and Norton equivalent circuits of the circuit in Fig. 99 using Question: Circuit 2 Apply Source Transformation to answer the following queries- (a) 8 marks] Reduce the Circuit 1 so that it takes the form of Circuit 2. com for more math and science lectures!In this video I will find V(at 2ohm resistor)=? using source transformation of a circuit w Answer to Q1. Apply source transformation to find Vy in the given circuit where V = 55 V. Question: Use source transformation to find the voltage VX in the circuit. Upload Image. 8Ω 10Ω 40 V 10Ω 2V, Show transcribed image text. 12 12b WW vx 50 V 40 Ω 8 A V The value of vx in the given circuit is 54 V. 27: Apply source transformation to find vx in the circuit of Fig Fundamentals of Electric Circuits – Solutions Manual [EXP-484] Apply source transformation to find { v }_{ x } in the circuit of Fig. - Question 2 of 4 [CO3] [15 marks] Apply Nodal/Mesh analysis to answer the following questions: (a) [12 marks] Find all the node voltages/mesh currents in the circuit. Question: Apply source transformation to find vx in the given circuit where V=65V. Whether you' Answer of - Apply source transformation to find vx in the circuit of Fig. 5 V −4 V 80 V 4 V 25 V 20V 5 V 15 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. Step 2. Answer: Vx-7. There are 2 Obtain v o v_o v o in the circuit shown using source transformation. Question: 8. The transformed sources are considered identical To find the voltage across a component using source transformation, you first need to convert all voltage sources into current sources or vice versa. g. Figure 4. engineering Use source transformation to find i o i_o i o in the circuit given below. apply source transformation to find vx in theVx circuit [solved] use superposition to find vx in 19. P2. 99 using Apply source transformation to find vx in the circuit below. 114 with respect to terminals a and b. Question Data is a Apply source transformation to find vx in the given circuit where V=75 V. Question: Apply source transformation to find vx in the given circuit where V = 45 V. Apply source transformation to find vx in the circuit shown below. Show transcribed image text. 1022 a 1222 2012 | tv, 50V 401 084 40V Show transcribed image text Here’s the best way to solve it. . 96. 4 - Use source transformation to find io in the Ch. The value of vx in the given circuit is V. Whether you' Question: Apply source transformation to find vx in the given circuit where V = 45 V. 2 b 20? t v. Thevenin equivalent. 24 Use source transformation to find the voltage V, in the circuit of Fig. 4 - Determine vx in the circuit of Fig. Apply source transformation to find vx in the following circuit: Chapter 4, Problem 2 7. Use source transformation to find the voltage V x in thecircuit. 92. com Use source transformation to find the voltage Vx in the given circuit where I=4A. 4 + Vx 4 316 316 312 10 A 36 163 16 Figure P2. The value of vx in the given circuit is -55. Question: Apply source transformation to find Vy in the given circuit where V = 60 V. Source transformation is the process where Question: Example: Find Vx using Source Transformation. Consider the given circuit. 36 Use resistance reduction and source transformation to find Vx in the circuit of Fig. Question: Apply source transformation to find vx in the given circuit where V=55 V. 5 V. Question: 5. EXAMPLE, In the circuit of Fig. Problem 1 (10 marks): Apply source transformation to find Vx in the circuit shown below Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. We find I1 using the circuit below. Answer to 2. 27 Apply source transformation to find vx in the circuit of Fig. 10 22 122b 2022 + Vx w 50 V (+ 4022 8 A Öv The value of vy in the given circuit is V. Use source transformation to find Vx in the circuit below. 4Ω 0. 4 - Use Question: Chapter 4, Problem 27. The solution method must match the one requested in the question. 44 Answer to Apply source transformation method to find out the Solved: use thevenin s theorem to find vx in the circuit s [solved] find vx in the circuit of fig. in the circuit of Fig. 2. There are 2 steps to solve this one. by combining two parallel or two Apply source transformation to find v_x in the circuit of Fig. Key learnings: Source Transformation Definition: Source transformation is defined as a technique to simplify circuit analysis by converting between equivalent voltage and current sources using Thévenin’s and Norton’s theorems. It is the process of replacing a voltage source vS in series with a resistor R by a current source iS in parallel with a resistor R, or vice versa. 5 mH, f=1 kHz, d=0. 10 Ω 12 Ω 6. Step 3. The value of v_x in the given circuit is V. 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. 27 Apply source transformation to find v. Apply source transformation to find vx in the given circuit where V=55 V. 8Ω 10Ω + V - 40 V 10Ω 2V, Show transcribed image text Here’s the best way to solve it. (b) Vx’’, the component of Vx due to the 10 V voltage source alone. The voltage source 50 V and 10 Ω are in series, it can be converted into parallel Transforming the voltage sources to current sources gives the circuit in Fig. 2 7 Apply source transformation to find v x in the circuit of Fig. Transcribed Step by Step Solution: Step 1. About Press Copyright Contact us Creators Advertise Developers Terms Privacy Policy & Safety How YouTube works Test new features NFL Sunday Ticket Press Copyright Apply Source Transformation (at least once) to find Vx (the voltage across R3) in the following circuit: (10 pts) R1 R3 R4 W 10ohm 12ohm 20ohm Vx Is VS1 sov R2 40ohm 8A | VS2 = 40m m O . Whether you' Question: Use source transformation to find vx in the following circuit. Identify the 4-ohm and 8-ohm resistors connected in series between nodes A and B Step 2. Answer to Apply source transformation to find vx in The circuit. 5VX Vx 6A 82 130 1722 7A w Not the question you’re looking for? Post any question and get expert help quickly. Vx find superposition using theorem circuit shown below chegg answers questions. The voltage Vx in the given circuit is v. Question: For R1=6, R2=9, 11=5 A, 12=2 A & K1=1, apply source transformation to find Vx in the circuit shown below + R2 12 11 R1 VX 1 + Kli, Vx= Show transcribed image text Here’s the best way to solve it. Figure 2 Show transcribed image text Source transformation is a circuit analysis technique that allows you to replace a voltage source with a series resistor with an equivalent current source with a parallel resistor, or vice versa. Apply source transformation to find Vx in the circuit 20 Ω 20 Ω 24 Ω M ΑΛΛ- ix +V, - + + 20V 80Ω 10V 1A 20 Ω ΑΛΛΟ Show transcribed image text Here’s the best way to solve it. V Answer to a) Apply source transformation to find vx in the Question: Apply source transformation to find v, in the given circuit where V = 75 V. 10 Q2 12 Q b WW + Ux 20 9 100 V 40 $2 8 A 40 V. Normally, source transformation would be used alongside Ohm's Law and Kirchhoff's Laws to compute Vx. Show transcribed image text Ch. Use source transformation to find io in the circuit shown below. Question: Use source transformation to find ix in the given circuit where V = 50 V. Ch. 20 V Chapter 4, Problem 27. Previous question Next question. 2Α 9 Ω WW 3 A ) ww 4Ω 5Ω 6A + υο (+ - 2 Ω 30 V 20. When current source has infinite resistance, in this case ${{V}_{s}}={{I}_{s}}R$ $R=\infty $ So, ${{V}_{s Find v0 v 0 if i = 5/2 i = 5 / 2 A, using Source Transformation ? Obtain a single current source for the network shown below and get the magnitude of current source and the resistor of the circuit. Apply source transformation to find vx in the. 10 - Find io in the circuit of Fig. Question: Problem 5: Apply source transformation to determine vx in the following circuit. Then apply Ohm's Use source transformation to find ix in the circuit below. An ideal ammeter (with zero resistance) and an ideal voltmeter (with infinite resistance) are used Question: Apply source transformation to find v_x in the given circuit where V = 65V The value ot v_x in the given circuit is _____ V. 3Α 8 Ω 10 Ω + V ΑΛ 40 V + 10 Ω 2V, 3. 5A 6V 두 3V 5 Apply source transformation to the current source and parallel resistor to convert them into an equivalent voltage source and series resistor Question: Apply Superposition Principle and/or Source Transformation to determine the voltage vy in the following circuit. 05:34. Apply Source Transformation (at least once) to find Vx (the voltage across R3) in the following circuit: (10 pts) R1 R3 R4 W Welcome to the Electrical Engineering channel! Here you’ll find tutorials, lectures, and resources to help you excel in your studies and career. However, there are no voltage or current sources in the given circuit, so we cannot apply source transformation. Use source transformation to find the voltage Vx in the given circuit where I 10Ω 8Ω 2% 10Ω V. 36. 36: Circuit for Problem 2. The variable resistor Rconnected between a and b in the circuit is adjusted for maximum power transfer to it. The value of vX in the given circuit is V. 10 22 12 12b 2012 a + vr 50 V 40 22 8 A v The value of vx in the given circuit is 55. Answer to Solved Saved 7. 45 Apply source transformations to find the mesh. This gives us a current source of 2A in series with a 10Ω resistor. 5A in parallel with the same resistor using the equation i = v s / R s Question: Apply source transformation to find vx in the given circuit where V 45 V 10Ω 12Ω b 20Ω 50 V (+ 40 Ω The value of vx in the given circuit is V. Calculate the value of RL b. Solution. 10 - Using Fig. Answer to Apply source transformation to find v, in the. Apply source transformation to find vx in the given circuit where V=65V. Apply source transformation to find Vx in the circuit below. 03:51. 5 A. 10 Ω 12 Ω b a 20 Ω + υ, 50 V 40 Ω 8A +)ν The value of vx in the given circuit is V. Apply voltage division to find the voltage across the 8-ohm resistor as v x /3 Step 3. For the upper portion, we have V = 3 × 1 = 3 V, with the positive There are 4 steps to solve this one. Question: Apply source transformation to find vx in the circuit of the Figure Apply source transformation to find v x in the circuit of the Figure There are 2 steps to solve this one. a. Then, you can use Ohm's Step 1: Current-to-Voltage Source Transformation. 25 2Ω 18 V 4Ω 10 4Ω ЗА 18V 3V 18 V Hint: Apply KVL to the circuit in figure (b) and solve for Vx. In [a 49 v 9 3n 0% The current [0 in the give VIDEO ANSWER: The nodal analysis has to be used to find Vx in the circuit. For Prob. View the full answer. Question: 4. Electrical-engineering document from University of Illinois, Chicago, 8 pages, Problem 2. Thanks for the help! Question: Use source transformation to find vx in the circuit below if V=60V. 50 V Figure 4. Calculate the output voltage of the given circuit below, and comment about it. 95? 30V 40 8 A 40 V | SolutionInn Answer to Apply source transformation to find Vx in the circuit. بسم الله الرحمن الرحيم In this video you will learn about Practice Problem 4. 44. 4. b- Obtain the Thévenin equivalent at terminals a−b and use the result to get vx. Solved 4. 102 a 1226 2022 50 v 40 Ω 8 A v From the given circuit it is observed as two voltage sources 50 volt and 40 volt are connected in series with 10 ohm and 20 resistors. jlzz ssohzaa ovs ahrlb qihjbb rrozwvb rbfykg lozi puyk cgjzjyd