1. Method # 1: Circuit equation Solver - Show the rest of computation for both nodes v1 and v2 to obtain their values. A

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1 Method 1 Circuit Equation Solver Show The Rest Of Computation For Both Nodes V1 And V2 To Obtain Their Values A 1 (34.83 KiB) Viewed 41 times

1. Method # 1: Circuit equation Solver - Show the rest of computation for both nodes v1 and v2 to obtain their values. Applying KCL to node 1 of circuit in figure 3.0 we can obtain the following equations: (1 = 12 +13 (2) 01-0 v1-0 v1-v2 10 (3) Applying KCL to node 2 of circuit in figure 3.0 we can obtain the following equations: 12 + 14 = (1 + 15 (4) + v1v2 2+02-0 (5) 10 2. Method # 2: Matrix Method: show the rest of computations to find V1 and V2 Matrix Method: +4=2+4 We can also use the matrix method to solve for v1 and v2. To solve for v1 and v2 using the Cramer's rule or matrix inversion we have to represent equations 3 and 5 in the following format: (1/2 + 1/2)01-1/2/2 2 (6) 1/10 - 02 (1+1)=-2 (7) Equations (6) and (7) can be represented in the matrix format in the following manner: -122-1²1