Solve B and C using Multisim. Please and post the picture of
the Multisim.
For the bridge network in Fig. 18.89: a. Is the bridge balanced? b. Using mesh analysis, determine the current through the 3 capacitive reactance. . Using nodal analysis, determine the voltage across the capacitive reactance. Ri R2 R3 4 kQ FIG. 18.89 Problem 31. 18
For the bridge network in Fig. 18.89: a. Is the bridge balanced? b. Using mesh analysis, determine the current through the...
For the circuit in Fig. 3.69, find vi, V2, and v3 using nodal analysis. 240 V 20/ V2 20 S2 3
7. Find Vo in the network shown in Figure below using nodal analysis (20 points) 12 V ww 1 k2 1 kO 2 k2 Ans: Use superposition and you should get: VO= 9 V
3.1 Use nodal analysis to find Vo in the circuit in Fig. 3.1. 2mA -o 12V(+ 0 Fig. 3.1 3.2 Use loop analysis to solve problem 3.1
Problem 2. (50 points) a) Using nodal analysis find the matrix Y and 1 of the equation Y× V-1. b) Find the unknown node voltages Vı, V2, Vs, and VRI, VR4 of the network in Volt using nodal analysis. R5 R6 RI R4 VRA VRI 4;60552; 19211214 3456 EIRRRRRR 2 1
Problem 2. Find the unknown node voltages of the network using nodal analysis. 2a). (25 points) Hint: convert the voltage source 15V to the current source points) Hint: convert the voltage source 15V to thec Answer: 612 612 Vi= Rs R 5 12 15 V 3A 7
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3.7 Apply nodal analysis to solve for V, in the circuit of Fig. 3.56. 2A 1022 www 2002 0.2V Figure 3.56 For Prob. 3.7. 3.12 Using nodal analysis, determine V. in the circuit in Fig. 3.61. 10 22 2022 NW + 40 V 2022 ww 1 Figure 3.61 For Prob. 3.12.
Chapter 12, Problem 12.011 Use nodal analysis to find I, in the network in the figure below. 4 mA 6 ma) 2 KN 7ko 6kΩ 4 mA) 8 kn | mA the tolerance is +/-2%
RU 3.18 Determine the node voltages in the circuit in Fig. 3.63 using nodal analysis. 300 V - + 10 402 2 402 2023 O 15 A 400 Figure 3.67 For Prob. 3.18.
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1. Using nodal analysis, find V1, V2 and vz in the circuit in Fig.1 below: 2Ω ΑΛΛ 4ix 3Ω 01-- ν2 03 ix 4Ω 6Ω 10A