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Assume that R1 = 6 kΩ. Determine the Thevenin voltage and impedance for the equivalent circuit shown. A. VTh = 45 ∠-30° V, ZTh = (6 - j3) kΩ B. VTh = 45 ∠150° V, ZTh = (6 + j3) kΩ C. VTh = 90 ∠60° V, ZTh = (6 + j3) kΩ D. VTh = 30 ∠120° V, ZTh = (3 + j5) kΩ E. VTh = 30 ∠45° V, ZTh = (3 – j5) kΩ F. None of the other answers is correct.

Assume that R1 = 6 kΩ. Determine the Thevenin voltage and impedance for the equivalent circuit shown. A. VTh = 45 ∠-30° V, ZTh = (6 - j3) kΩ B. VTh = 45 ∠150° V, ZTh = (6 + j3) kΩ C. VTh = 90 ∠60° V, ZTh = (6 + j3) kΩ D. VTh = 30 ∠120° V, ZTh = (3 + j5) kΩ E. VTh = 30 ∠45° V, ZTh = (3 – j5) kΩ F. None of the other answers is correct.

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Assume that R1 = 6 kΩ. Determine the Thevenin voltage and impedance for the equivalent circuit shown. A. VTh = 45 ∠-30° V, ZTh = (6 - j3) kΩ B. VTh = 45 ∠150° V, ZTh = (6 + j3) kΩ C. VTh = 90 ∠60° V, ZTh = (6 + j3) kΩ D. VTh = 30 ∠120° V, ZTh = (3 + j5) kΩ E. VTh = 30 ∠45° V, ZTh = (3 – j5) kΩ F. None of the other answers is correct.

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