On the circuit show below, determine: Voltages V1 and V2 Currents through each of the resistors Voltages across each of the resistors Power delivered to each of the resistors 5V R₂ www 1 ΚΩ R₁ ww 3 ΚΩ V₁ 4₁i R₁ 3 ΚΩ 0 R3 www 1 ΚΩ ww V₂ R5 1 ΚΩΙ

please answer the following question with clear explanation, show all the work

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### Circuit Analysis Task In the circuit shown below, determine the following: - **Voltages V1 and V2** - **Currents through each of the resistors** - **Voltages across each of the resistors** - **Power delivered to each of the resistors** ### Circuit Description The circuit consists of: - A voltage source, \( V_s = 5 \, V \). - Five resistors: - \( R_1 = 3 \, k\Omega \) - \( R_2 = 1 \, k\Omega \) - \( R_3 = 1 \, k\Omega \) - \( R_4 = 3 \, k\Omega \) - \( R_5 = 1 \, k\Omega \) ### Diagram Explanation - **Voltage Source** (\( V_s \)): Located at the bottom left of the circuit, providing \( 5 \, V \). - **Node V1**: Junction between \( R_1 \), \( R_2 \), and \( R_4 \). - **Node V2**: Node to the right of \( R_3 \) and \( R_5 \), where their junction occurs. - **Ground**: At the bottom, below \( R_4 \). The resistors are connected in a complex network across these nodes and the power source, creating multiple loops for current flow. This network requires the application of Ohm's Law and Kirchhoff's Laws for a complete analysis to determine the voltages, currents, and power dissipation in each component.