4 Vx B 40 A C 4Ω 4Ω + Vx340 RL 100 v(+ 20 V ww

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**Electric Circuit Description** In the given electrical circuit diagram, we have the following components and connections: - **Voltage Sources:** - A 100 V independent voltage source is positioned on the left side of the circuit. - A 20 V independent voltage source is connected vertically at node A. - **Resistors:** - Four 4 Ω resistors are present in the circuit: - The first 4 Ω resistor is in series with the 100 V source on the left. - The second 4 Ω resistor connects nodes A and B horizontally. - The third 4 Ω resistor connects node B and C horizontally. - The fourth 4 Ω resistor is connected vertically at node A, forming part of a path to the negative terminal of the 20 V source. - **Dependent Voltage Source:** - A dependent voltage source labeled 4Vx is placed horizontally between the first 4 Ω resistor and node B. It is represented by a diamond shape with positive and negative terminals. - **Node Configuration:** - Node A is at the intersection of the vertical and horizontal resistors, with connections to the dependent source, a vertical 4 Ω resistor, and it is adjacent to the 20 V source. - Node B is connected to node A via a 4 Ω resistor and has the dependent voltage source on one side and another horizontal 4 Ω resistor leading to node C. - **Load Resistor:** - An unknown load resistor, RL, is connected between node C and the ground at the bottom of the circuit. This circuit illustrates a complex network, incorporating both independent and dependent voltage sources alongside resistors, which can be analyzed using techniques such as Ohm’s Law, Kirchhoff's Laws, and Thevenin’s Theorem.

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vi. What value of \( R_L \) gives maximum power transfer? [Text box] \(\Omega\) vii. What is the power dissipated in \( R_L \) when it has a value to allow maximum power transfer? [Text box] W