For the AC circuit in the time domain, with an internal signal value Ix(t) = 4 cos (10t-90°) Amps: 622 a 1H Vs(t) + Zeq B) Determine x(t) = b 0.025F Step 1: All the circuit elements in the frequency domain. Show the circuit. Step 2: The value of the equivalent impedance Zeq. Step 3: The value of the current phasor I. Step 4: The value of the voltage phasor Vab. Step 5: The value of the voltage source phasor Vs. Step 6: Find the time domain expressions for I(t), Vab(t) and Vs(t). 452
For the AC circuit in the time domain, with an internal signal value Ix(t) = 4 cos (10t-90°) Amps: 622 a 1H Vs(t) + Zeq B) Determine x(t) = b 0.025F Step 1: All the circuit elements in the frequency domain. Show the circuit. Step 2: The value of the equivalent impedance Zeq. Step 3: The value of the current phasor I. Step 4: The value of the voltage phasor Vab. Step 5: The value of the voltage source phasor Vs. Step 6: Find the time domain expressions for I(t), Vab(t) and Vs(t). 452
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Transcribed Image Text:For the AC circuit in the time domain, with an internal signal value Ix(t) = 4 cos (10t - 90⁰) Amps:
622
a
1H
Vs(t) +
Zeq
B) Determine
l(t)
X(t) = 0.025F
b
Step 1: All the circuit elements in the frequency domain. Show the circuit.
Step 2: The value of the equivalent impedance Zeq.
Step 3: The value of the current phasor I.
Step 4: The value of the voltage phasor Vab.
Step 5: The value of the voltage source phasor Vs.
Step 6: Find the time domain expressions for I(t), Vab(t) and Vs(t).
452
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