Given the circuit below. i, (t) = V210 cos(377t). Give your answer in four decimal places if it is not a whole number. 1Ω is 2Ω 0.2 H 1. If the source is a constant, the order of the circuit is: 2. The impedance of the inductor is jX. What is X? 3. The current source has an RMS value equal to: 4. The RMS current passing through the inductor has a magnitude of ? 5. The power factor of the system is: 6. The total real power dissipated by the circuit is (in W): 7. The reactive power dissipated by the source is (in Vars): 8. The apparent power dissipated by the source is (in VA): all

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Given the circuit below. i, (t) = V210 cos(377t). Give your answer in four decimal places if it is not a whole
number.
1Ω
i
is
0.2 H
1. If the source is a constant, the order of the circuit is:
2. The impedance of the inductor is jX. What is X?
3. The current source has an RMS value equal to:
4. The RMS current passing through the inductor has a magnitude of ?
5. The power factor of the system is:
6. The total real power dissipated by the circuit is (in W):
7. The reactive power dissipated by the source is (in Vars):
8. The apparent power dissipated by the source is (in VA):
Transcribed Image Text:Given the circuit below. i, (t) = V210 cos(377t). Give your answer in four decimal places if it is not a whole number. 1Ω i is 0.2 H 1. If the source is a constant, the order of the circuit is: 2. The impedance of the inductor is jX. What is X? 3. The current source has an RMS value equal to: 4. The RMS current passing through the inductor has a magnitude of ? 5. The power factor of the system is: 6. The total real power dissipated by the circuit is (in W): 7. The reactive power dissipated by the source is (in Vars): 8. The apparent power dissipated by the source is (in VA):
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