A capacitor C is charged to an initial potential of 70.0 V, with an initial char
ID: 1288621 • Letter: A
Question
A capacitor C is charged to an initial potential of 70.0 V, with an initial charge of Q0. It is in a circuit with a switch and an inductor with inductance L = 3.89x10-2 H and resistance RL.
At t=0, the switch is closed, and the curve below shows the potential V across the capacitor as a function of time t.
Calculate the energy in the circuit after a time of 11 periods. Note that the curve passes through a grid intersection point.
Calculate the time required for 91% of the initial energy to be dissipated.
A capacitor C is charged to an initial potential of 70.0 V, with an initial charge of Q0. It is in a circuit with a switch and an inductor with inductance L = 3.89x10-2 H and resistance RL. Dynamically generated plot Calculate the energy in the circuit after a time of 11 periods. Note that the curve passes through a grid intersection point. Calculate the time required for 91% of the initial energy to be dissipated. At t=0, the switch is closed, and the curve below shows the potential V across the capacitor as a function of time t. At t=0, the switch is closed, and the curve below shows the potential V across the capacitor as a function of time t.Explanation / Answer
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A capacitor C is charged to an initial potential of 70.0 V, with an initial charge of Q0. It is in a circuit with a switch and an inductor with inductance L = 3.37
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