Consider an AC circuit consisting of an AC voltage source, a 30-W resistor, a 450-mF capacitor, and a 0.35 H inductor in series. A current given by 20 mA cos(127 rad/s * t) flows through the circuit. What is the voltage across the capacitor as a function of time? What is the voltage across the inductor as a function of time? What is the voltage across the AC voltage source as a function of time, written as a single term? How much energy is dissipated in the resistor in one minute?

Consider an AC circuit consisting of an AC voltage source, a 30-W resistor, a 450-mF capacitor, and a 0.35 H inductor in series. A current given by 20 mA cos(127 rad/s * t) flows through the circuit. What is the voltage across the capacitor as a function of time? What is the voltage across the inductor as a function of time? What is the voltage across the AC voltage source as a function of time, written as a single term? How much energy is dissipated in the resistor in one minute?

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Question

Consider an AC circuit consisting of an AC voltage source, a 30-W resistor, a 450-mF capacitor, and a 0.35 H inductor in series. A current given by 20 mA cos(127 rad/s * t) flows through the circuit.
What is the voltage across the capacitor as a function of time? What is the voltage across the inductor as a function of time? What is the voltage across the AC voltage source as a function of time, written as a single term? How much energy is dissipated in the resistor in one minute?

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