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11 Dec 2019
Energy within an L-C Circuit As a function of time, what is the energy UL(t) stored in the inductor? Express your answer in terms of L and I(t) onstants Consider an L-C circuit with capacitance C, inductance L, and no voltage source, as shown in the figure (Figure 1). As a function of time, the charge on the capacitor is Q(t) and the current through the inductor is I(t) Assume that the circuit has no resistance and that at one time the capacitor was charged.
- As a function of time, what is the energy UL(t) stored in the inductor?
- As a function of time, what is the energy UC(t) stored in the capacitor? Express your answer in terms of C and Q(t).
Energy within an L-C Circuit As a function of time, what is the energy UL(t) stored in the inductor? Express your answer in terms of L and I(t) onstants Consider an L-C circuit with capacitance C, inductance L, and no voltage source, as shown in the figure (Figure 1). As a function of time, the charge on the capacitor is Q(t) and the current through the inductor is I(t) Assume that the circuit has no resistance and that at one time the capacitor was charged.
- As a function of time, what is the energy UL(t) stored in the inductor?
- As a function of time, what is the energy UC(t) stored in the capacitor? Express your answer in terms of C and Q(t).
Uttam SaikiaLv10
28 Dec 2020