4. In the circuit below, vs(t) = 40 cos (200t +30°) V. Calculate the impedance Z of the network connected to the voltage source. Also determine the source current is (t). is(t) 200 uF Ds(1) Ds(1) 30 ΩΣ Dg(1) 5. Problem 4 using node voltage method: In the circuit below, vs(t) = 40 cos(200t +30°) V. Use the node voltage method to determine the voltage v(t). Then find the voltage v₁ (t) across the inductor (use voltage division in the phasor domain.) 200μF 1092 www + Ve(t)- 十 30 2v(t) 30 ΩΣ 1092 www id(1) 6. Problem 4 using mesh current method: In the circuit below, vs(t) = 40 cos(200t +30°) V. Use the mesh current method to solve for the mesh currents and then determine the capacitor voltage vc (t). 200 μF 1092 www 50 mH + N₂lt) 50 mH a(1) 50 mH
4. In the circuit below, vs(t) = 40 cos (200t +30°) V. Calculate the impedance Z of the network connected to the voltage source. Also determine the source current is (t). is(t) 200 uF Ds(1) Ds(1) 30 ΩΣ Dg(1) 5. Problem 4 using node voltage method: In the circuit below, vs(t) = 40 cos(200t +30°) V. Use the node voltage method to determine the voltage v(t). Then find the voltage v₁ (t) across the inductor (use voltage division in the phasor domain.) 200μF 1092 www + Ve(t)- 十 30 2v(t) 30 ΩΣ 1092 www id(1) 6. Problem 4 using mesh current method: In the circuit below, vs(t) = 40 cos(200t +30°) V. Use the mesh current method to solve for the mesh currents and then determine the capacitor voltage vc (t). 200 μF 1092 www 50 mH + N₂lt) 50 mH a(1) 50 mH
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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