Determine the total resistance for the circuit, given: E₁ = 120 V, R₁ = 102, R₂ = 82, R₂ = 150 ₁ R₁ = 7, R₁ = 1802, R = 32, R₂ = 12 2, Ω, Rg = 14 Ω Es 120 V 20 R₂ 2 150 R₁ 10 02- 80 F3 R₂ 701 $ Re 3Q Ry 12 Q Click on the image to view a larger version of it. R₂ 802 www DOD DOO FA R₂ 140 www R₁ 18 0 % FO A $24. Fo & 80 F7 * DII F8 DD F9 F10 F11 F12

Determine the total resistance for the circuit 

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**Determine the Total Resistance for the Circuit** ### Given: - \( E_T = 120 \, \text{V} \) - \( R_1 = 10 \, \Omega \) - \( R_2 = 8 \, \Omega \) - \( R_3 = 150 \, \Omega \) - \( R_4 = 7 \, \Omega \) - \( R_5 = 18 \, \Omega \) - \( R_6 = 3 \, \Omega \) - \( R_7 = 12 \, \Omega \) - \( R_8 = 14 \, \Omega \) ### Diagram Explanation: The diagram shows a circuit with various resistors connected to a voltage source of \( 120 \, \text{V} \). - **\( R_1 \) (10 Ω)** and \( R_3 \) (150 Ω) are connected in series on the main branch of the circuit. - Parallel to \( R_3 \), there is a complex network that includes: - \( R_2 \) (8 Ω) and \( R_8 \) (14 Ω) in series. - The series combination of \( R_2 \) and \( R_8 \) is in parallel with \( R_5 \) (18 Ω). - \( R_4 \) (7 Ω) is in parallel with the network involving \( R_6 \) (3 Ω) and \( R_7 \) (12 Ω), both of which are in series. ### How the Diagram is Structured: - The voltage source is depicted on the left with \( E_s = 120 \, \text{V} \). - Resistors \( R_1 \) and \( R_3 \) are vertically aligned. - The parallel and series combinations are clearly delineated alongside the main branch, emphasizing the complexity of the circuit. **Instructions:** Click on the image to view a larger version for detailed analysis and calculation of the total resistance in the circuit.