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**Problem Statement:** 3. Find the Thevenin equivalent circuit for the circuit shown in Figure 3. Then, find \( R_L \) such that maximum power is dissipated in \( R_L \) and calculate the value of maximum power. **Figure 3 Explanation:** The schematic in Figure 3 depicts an electrical circuit consisting of the following components: - **Current Source \(I_1\):** - Value: 1A - Positioned on the left side, it initiates the circuit. - **Resistor \(R_1\):** - Resistance: \(2 \Omega\) - Connected in series with the current source \(I_1\). - **Resistor \(R_2\):** - Resistance: \(10 \Omega\) - Placed in parallel with \(R_1\). - **Resistor \(R_3\):** - Resistance: \(3 \Omega\) - Connected in parallel with a voltage source \(V_1\). - **Voltage Source \(V_1\):** - Voltage: 2V - Connected in parallel with \(R_3\). - **Resistor \(R_4\):** - Resistance: \(20 \Omega\) - Connected in series with \(R_L\). - **Load Resistor \(R_L\):** - Positioned on the far right, it is connected in series with \(R_4\). This instruction requires the calculation of the Thevenin equivalent for the given circuit, determination of the optimal \(R_L\) value for maximum power transfer, and calculation of this maximum power.