(3) The system is in steady state. Find ia(t). (In your answer, combine cosines/sines with the same frequency. So for each frequency, there should be only one cosine wave.) ia(t) 202 www i₁ (↑) √2 cos (1000t + V2 +1 3 mH 500 µF ia 377) V1 - 2 A - i₁ (t) = sin(1000t) A v₁ (t) = 2 · cos(1000t + π) V v₂(t) = 4 V

(3) The system is in steady state. Find ia(t). (In your answer, combine cosines/sines with the same frequency. So for each frequency, there should be only one cosine wave.) ia(t) 202 www i₁ (↑) √2 cos (1000t + V2 +1 3 mH 500 µF ia 377) V1 - 2 A - i₁ (t) = sin(1000t) A v₁ (t) = 2 · cos(1000t + π) V v₂(t) = 4 V

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter17: Resistive-inductive Series Circuits

Section: Chapter Questions

Problem 2PP: Assume that the voltage drop across the resistor, ER, is 78 V, that the voltage drop across the...

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