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 ve(t). 200 μF + ve(t)- 30 ΩΣ 1092 id(0) 50 mH

Q6 needed Needed to be solved Q6 correctly in 30 minutes and get the thumbs up please show me neat and clean work for it by hand solution needed

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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(1) 200 uF vs(1) Ds(1) 30 ΩΣ Ds(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 ww + Ve(t)- 十 30 2v(t) 30 ΩΣ 1092 id(1) 6. Problem 4 using mesh current method: In the circuit below, v, (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) 350 mH (1) 50 mH