For the following circuit, use superposition to find the voltage across the 32 resistor VlBA DUE ONLY to the 3A current source. Round your answer to the nearest tenth and put it in the provided box. Be sure to include units. Show all your work. 2V +, 4V VE ) 2A ЗА

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The image is a circuit diagram accompanied by an instructional text. Below is a description suitable for an educational website. --- **Instructional Text:** "For the following circuit, use superposition to find the voltage across the 3Ω resistor due only to the 3A current source. Round your answer to the nearest tenth and put it in the provided box. Be sure to include units. Show all your work." **Circuit Diagram Details:** - The circuit is a series-parallel configuration. - Components and Values: - A 4V voltage source connected in series with a 7Ω resistor. - A 3Ω resistor is in parallel with the combination of a 2V voltage source and a 6Ω resistor. - A current source of 3A is connected to the circuit, which splits at a junction with the 2A current source. - The voltage across the 3Ω resistor, labeled as \( V_x \), is the desired quantity to be calculated. The task involves applying the superposition theorem, which means analyzing the circuit by considering the effect of each independent source separately, and then algebraically summing these effects to find the total response across the 3Ω resistor due only to the 3A current source.