In EELE 201 we are learning how to use a set of tools to solve for voltage and currents in linear circuits. Techniques such as the node voltage approach may be used to solve any problem we will face. In some cases, however, such techniques may be more involved than necessary. Below we solve for a voltage in a circuit using four distinct approaches. In all methods you should find that Vout = 5.714V. Problem 1 of 1: Consider the circuit shown below in which R₁ = 52, R₂ = 102, R3 = 20 22, and Is = 2 A. Is ww R₁ R₂ ww + VoutR3 (a) Find Vout using the node voltage approach. (b) Find Vout using the mesh current approach. (c) Find Vout using a current divider plus Ohm's Law.

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In EELE 201 we are learning how to use a set of tools to solve for voltage and currents in linear circuits. Techniques such as the node voltage approach may be used to solve any problem we will face. In some cases, however, such techniques may be more involved than necessary. Below we solve for a voltage in a circuit using four distinct approaches. In all methods you should find that Vout = 5.714V. Problem 1 of 1: Consider the circuit shown below in which R₁ = 5 2, R₂ = 102, R3 = 20 2, and Is = 2 A. Is + R₁ R₂ ww + Vout R3 (a) Find Vout using the node voltage approach. (b) Find Vout using the mesh current approach. (c) Find Vout using a current divider plus Ohm's Law. (d) Find Vout using source transformation plus a voltage divider.