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7. Use nodal analysis to solve for the nodal voltages in the following circuit: 2Α (1) WW 2Ω Μν 4Ω V V 4 Ω V. 2Ω W ΑΛΛ 8Ω ΑΛ 31, 3Α Η
...), solve the system of equations generated by the Nodal analysis technique for the node voltages in the circuit. Do this one of two ways. Either: (a) solve using MatLAB OR (b) solve using your personal calculator. On a one page submission, present the details of your solution for the values of V, -V, then find the value of V.. 222 51 m 36 - Vab-
Problem #2-25 points-Nodal Analysis (a) Use Nodal Analysis to find the node voltages Va and Vb in the circuit below. (b) Find Vx and Iz. 3mA IK Vx Vb 1K 13K Iz 6V 1K 7K
4. Use NODAL ANALYSIS to find the voltages vi and v2 in the circuit shown below. 4Ω 1, 2Α 4Ω: MW 1 Ω 2i, 2Ω 10 ν
9 (20p). a. Write the nodal equations for the network. b. Solve for the nodal voltages. c. Determine the magnitude and polarity of the voltage across each resistor. 7.5k02 W RA Ri 9.1 kn E3V R;3220 R$ 368k12 E18V R; 3.3 kg
3. Use nodal analysis to compute the node voltages of the network in Figure P.3. Write the equations as a 2x2 matrix and solve. From the node voltages, find the current i. 422 10 V 11 - 12 V (-) 362 322 Figure P.3
3. Use Node Voltage Analysis to determine the nodal voltages for the network below. [6 5Ω 5Ω V. i2 5290° 30L500V 5Ω is Va =
4. Using Nodal analysis find Nodal voltages เห็น IMA (1) (0) (tณ
just multisim
2. (20 pts) Use Nodal Analysis to determine Node Voltages Vi and V2 12 ЗА V. R3 40 R1 R4 80 R5 20 6 A 20
Find the node voltages v1, v, and v2. Use nodal analysis. R3 R 2 17 3 1 2 Given Variables: R1:2 ohm R2 1 ohm R3 1 ohm R4 2 ohm Vs:5 V Is : 1 A