6. For the circuit in Figure 4, (a) find ZT, I, VR, VL, and VC (Ans: 50 < -36.87°?, 2.4 < 36.87°A, 48 < 126.87°V, 120 < -53.13°V, 96 < 36.87°V (b) Sketch the phasor diagrams of ZT, I, VR, VL, and VC + VL – XL 20 ? I E = 120 V?0° ZT ? XC 50 ? + VC – R 40 ? – VR + Figure 4
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- Resistor \( R = 40 \Omega \) - Inductive reactance \( X_L = 20 \Omega \) - Capacitive reactance \( X_C = 50 \Omega \) - Source voltage \( E = 120 \angle 0^\circ \text{V} \) Show more…
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For the circuit in Figure 4, (a) find ZT, I, VR, VL, and VC (Ans: 50 < -36.87Ω, 2.4 < 36.87°A, 48 < 126.87°V, 120 < -53.13°V, 96 < 36.87°V (b) Sketch the phasor diagrams of ZT, I, VR, VL, and VC
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Determine ZT and I for the given circuit, where R = 14 Ή. Please report your answer so the magnitude is positive and all angles are in the range of -180 degrees to +180 degrees. The values of ZT = Ή and I = A.
In the given circuit in Fig. $10.48, V_{c}=50 \mathrm{~V}$ and $R=50 \Omega$. The values of $C$ and $V_{R}$ are a. $3.3 \mathrm{mF}, 60 \mathrm{~V}$ b. $3.3 \mu \mathrm{F}, 98 \mathrm{~V}$ c. $1.6 \mu \mathrm{P}, 30 \mathrm{~V}$ d. $2 \mu \mathrm{F}, 60 \mathrm{~V}$
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