A coil with internal resistance can be modeled as a resistor and an ideal inductor in series. Assume that the coil has an internal resistance of 2.00 omega and an inductance of 480 mH. A 1.60 1.60 MuF capacitor is charged to 24.0 V and is then connected across the coil.

(a) What is the initial voltage across the coil? V

(b) How much energy is dissipated n the circuit before the oscillations die out? mJ

(c) What is the frequency of oscillation of the circuit? (Assume the internal resistance is sufficiently small that it has no impact on the frequency of the circuit.) Hz

(d) What is the quality factor of the circuit?

Question

Physics

Moises Burgess

4 May, 00:35

A coil with internal resistance can be modeled as a resistor and an ideal inductor in series. Assume that the coil has an internal resistance of 2.00 omega and an inductance of 480 mH. A 1.60 1.60 MuF capacitor is charged to 24.0 V and is then connected across the coil.

(a) What is the initial voltage across the coil? V

(b) How much energy is dissipated n the circuit before the oscillations die out? mJ

(c) What is the frequency of oscillation of the circuit? (Assume the internal resistance is sufficiently small that it has no impact on the frequency of the circuit.) Hz

(d) What is the quality factor of the circuit?

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Answers (1)

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Alessandra Gates · Answer 1

Answer:The impedance per phase is 1.25H. This was calculated using the ... the complex power generated is 3.4kw. The full solution can be found below.