For the circuit shown in Figure El.3.2, use KCL and KVL to determine i, i2, vpd find veh- -3 A Figure E1.3.2 Vab=5 V 3 V 2= ? =? 20 V 8 V 10 A 8 A

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For the circuit shown in Figure E1.3.2, use KCL (Kirchhoff's Current Law) and KVL (Kirchhoff's Voltage Law) to determine \(i_1\), \(i_2\), \(v_{bd}\), and find \(v_{eb}\). **Figure E1.3.2 Explanation:** - A circuit with labeled nodes a, b, c, d, e, and f. - A voltage source of 20 V is connected between node e and node a. - A resistor with a voltage \(v_{ab} = 5 \, \text{V}\) is connected between nodes a and b. - A current \(i_{bf}\) flows into node f from node b. - A current source providing \(-3 \, \text{A}\) is connected between nodes f and c. - Another current flows into node f labeled as \(i_2 = ?\). - A voltage of 3 V is across a component between nodes f and c. - A current \(i_1 = ?\) flows into node c. - A voltage \(v_x = ?\) is across a component between nodes c and e. - A current source of 10 A flows from node d to node e. - A voltage of 8 V is across a component between nodes d and e. - An 8 A current source flows from node e to node c. To solve, apply KCL at each junction and KVL in each loop to find the unknown currents and voltages.