Normally, you would construct the KCL equations for each nonreference essential node using the same equation format. For the final KCL equation at the node labeled vg, assume that the current through the 120 V source is entering the node and that the currents through the 8 kn and 5 k resistors leave the node. Construct the KCL equation by setting the sum of the currents entering equal to the sum of the currents leaving. Then move all of the terms to one side of the equation, so that the other side contains "= 0." Recall that, in this circuit, é = 10 mA and vg = 120 V. 5 kQ + V. 1 k2 8 kQ Vị V3 3 kN§ 2 k2 Express your answer in terms of v1, 02, and vg. Make sure each term is expressed in amperes.

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Normally, you would construct the KCL equations for each nonreference essential node using the same equation format. For the final KCL equation at the node labeled vg, assume that the current through the 120 V source is entering the node and that the currents through the 8 kN and 5 k2 resistors leave the node. Construct the KCL equation by setting the sum of the currents entering equal to the sum of the currents leaving. Then move all of the terms to one side of the equation, so that the other side contains "= 0." Recall that, in this circuit, = 10 mA and v = 120 V. 5 kN + V. 1 kQ 8 kQ V2 V3 3 k2 v. 2 kΩ Express your answer in terms of v1, v2, and vg . Make sure each term is expressed in amperes.