A series circuit like the circuit in (Figure 1) consists of a 1.40 mH inductor, a 125 2 resistor, and a 45.0 nF capacitor connected across an ac source having an rms voltage of 65.0 V and variable frequency. (a) At what angular frequencies will the current amplitude be equal to 1 of its maximum possible value? (b) At the frequencies in part (a), what are the current amplitude and the voltage amplitude across each circuit element (including the AC source)?
A series circuit like the circuit in (Figure 1) consists of a 1.40 mH inductor, a 125 2 resistor, and a 45.0 nF capacitor connected across an ac source having an rms voltage of 65.0 V and variable frequency. (a) At what angular frequencies will the current amplitude be equal to 1 of its maximum possible value? (b) At the frequencies in part (a), what are the current amplitude and the voltage amplitude across each circuit element (including the AC source)?
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A series circuit like the circuit in (Figure 1) consists of a 1.40 mHmH inductor, a 125 ΩΩ resistor, and a 45.0 nFnFcapacitor connected across an ac source having an rms voltage of 65.0 VV and variable frequency. (a) At what angular frequencies will the current amplitude be equal to 1313 of its maximum possible value? (b) At the frequencies in part (a), what are the current amplitude and the voltage amplitude across each circuit element (including the AC source)?
Find the impedance at the angular frequencies in part (a); then solve for the values of angular frequency.
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