An AC voltage source drives a sinusoidal current through two resistors. The amplitude of the sinusoidal voltage across the top resistor is 4 V. The amplitude.

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Presentation transcript:

An AC voltage source drives a sinusoidal current through two resistors. The amplitude of the sinusoidal voltage across the top resistor is 4 V. The amplitude of the sinusoidal voltage across the bottom resistor is 3 V. What is the amplitude of the sinusoidal voltage provided by the source? A] 0 V D] 7 V B] 1 V E] 12 V C] 5 V

An AC voltage source drives a sinusoidal current through a resistor and an inductor in series. The amplitude of the sinusoidal voltage across the top resistor is 4 V. The amplitude of the sinusoidal voltage across the bottom inductor is 3 V. What is the amplitude of the sinusoidal voltage provided by the source? A] 0 V D] 7 V B] 1 V E] 12 V C] 5 V

An AC voltage source drives a sinusoidal current through a capacitor and a resistor in series. The amplitude of the sinusoidal voltage across the top capacitor is 4 V. The amplitude of the sinusoidal voltage across the bottom resistor is 3 V. What is the amplitude of the sinusoidal voltage provided by the source? A] 0 V D] 7 V B] 1 V E] 12 V C] 5 V

An AC voltage source drives a sinusoidal current through a capacitor and an inductor in series. The amplitude of the sinusoidal voltage across the top capacitor is 4 V. The amplitude of the sinusoidal voltage across the bottom inductor is 3 V. What is the amplitude of the sinusoidal voltage provided by the source? A] 0 V D] 7 V B] 1 V E] 12 V C] 5 V