Consider the following circuit R Us M +v₁ (t)- yilt) + L c. The inductive impedance is Z = L Vo(t) For this circuit, the input voltage is vs (t) = 0.1 cos(450t +30°) V. Assume R = 100 2 and L = 50mH. By analyzing the circuit using the concept of phasors and basic circuit laws in the frequency domain i.e. w domain, fill in the following blanks. Use j to denote a complex term. a. The phasor notation for vs (t) is Vs (w) = you would type <90 as your answer without the degree symbol. b. The resistance is ZR = Ω Ω V. Use the "<" ("less than" or "<" key on your board) to denote the angle. Example: for an angle of 90°,

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Consider the following circuit R บร +v₁ (t). vi(t) For this circuit, the input voltage is vs (t) + L Vo(t) 0.1 cos(450t +30°) V. Assume R = 100 2 and L = 50m H. By analyzing the circuit using the concept of phasors and basic circuit laws in the frequency domain i.e. w domain, fill in the following blanks. Use j to denote a complex term. c. The inductive impedance is Z = answer. a. The phasor notation for vs (t) is V₂ (w) = V. Use the "<" ("less than" or "<" key on your board) to denote the angle. Example: for an angle of 90°, you would type <90 as your answer without the degree symbol. b. The resistance is ZR = Ω = d. Using voltage division in the frequency domain, the phasor form of the current in the circuit is I (w) = places e. The sinusoidal form of the inductor voltage i (t) Ω = A. Enter the amplitude up to 4 decimal A. Enter the amplitude up to 4 decimal places. Ignore the degree symbol when entering your