= 8V), and a. Consider the complex DC circuit in Fig 1. The DC voltage source setting is 8 V (i.e. V5 the resistor values are: R₁ = 1 kN, R₂ = 2.2 kN, R3 = 820 N, R4 = 220 N, R5 = 470 , and R6 = 330 Ω. V₁ Vs R₂ www 2.2 ΚΩ R5 470 Ω R₁ www 1 ΚΩ 12 V₂ R4 220 Ω V₁ R3 www 820 Ω 13 Figure 1: Complex DC Circuit V3 R6 330 Ω

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Task 1: Theoretical Calculations - Nodal Analysis a. Consider the complex DC circuit in Fig 1. The DC voltage source setting is 8 V (i.e. V = 8V), and the resistor values are: R₁ = 1 kn, R₂ = 2.2 kN, R3 = 820 N, R4 = 220, R5 = 470 2, and Ro 330 Ω. = V₁ Vs R₂ 2.2 ΚΩ 11 R5 ww 470 Ω R₁ www 1 ΚΩ 12 V₂ R4 220 Ω V4 R3 820 Ω 13 Figure 1: Complex DC Circuit V3 R6 330 Ω Page 1/3 b. Use nodal analysis to compute the nodal voltages of this circuit. Show your "complete step-by-step" work including equations and calculations wit vided in the Prolah 5 Worksheet and reco Task 2: Theoretical Calculations - Mesh Analysis a. Use mesh analysis to compute the mesh currents of the circuit in Fig. 1. Show your calculations within