To determine Find the steady-state expression v ( t ) using node-voltage method. Explanation Given data: i s = 10 cos ω t A v s = 100 sin ω t V ω = 50 krad / s Formula used: Consider the general expression for inductive impedance. Z L = j ω L (1) Here, L is the inductor. ω is the angular frequency. Consider the general expression for capacitive impedance. Z C = j − 1 ω C (2) Here, C is the Capacitor. ω is the angular frequency. Calculation: Refer to Circuit diagram in the respective question. Convert the source voltage v s in terms of cos, by subtracting − 90 ° . v s = 100 cos ω t − 90 ° Convert the source voltage in terms of phasor voltage. V s = 100 ∠ − 90 ° V Convert the source current in terms of phasor voltage. I s = 10 ∠ 0 ° A Substitute 50000 rad / s for ω and 100 μ H for L in equation (1) as follows. Z L = j ( 50000 ) ( 100 μ H ) = j ( 50000 ) ( 100 × 10 − 6 ) { ∵ 1 μ = 1 × 10 − 6 } = j 5 Ω Substitute 50000 rad / s for ω and 9 μ F for C in equation (2) as follows. Z C = − j 1 ( 50000 ) ( 9 μ ) = − j 1 × 10 6 ( 50000 ) ( 9 ) = − j 2

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Chapter 9.8, Problem 12AP

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Find the steady-state expression v(t) using node-voltage method.

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Chapter 9 Solutions

Electric Circuits, Global Edition

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ECE320 Lecture1-3c: Steady-State Error, System Type; Author: Rose-Hulman Online;https://www.youtube.com/watch?v=hG7dq-51AAg;License: Standard Youtube License