Look at Figure 30.17. Why is this called an LRC series circuit, when the capacit

Question

Look at Figure 30.17. Why is this called an LRC series circuit, when the capacitor is apparently in parallel with the resistor and the inductor?

Look at Figure 30.17. The circuit would still work as intended if (check all that apply)

if all 3 were put in series, the circuit would not do anything if all 3 were put in series, the battery would short out the capacitor will be put in series with the resistor and the inductor after it is charged up an LRC circuit is called "series" when at least two of the three components are in series 30.17 An L-R-C series circuit. When switch S is in this position, the emf charges the capacitor. bo When switch S is moved to this position, the capacitor discharges through the resistor and inductor.

Explanation / Answer

The capacitor will be put in series with the inductor and resistor after it's charged up is the correct answer for first part.

The circuit will work as intended even if the resistor were switched with the inductor because even then they both will remain disconnected when the battery is connected to the capacitor and will come in series with capacitor once the swith is thrown to the other side.

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