To determine Calculate the average delivered power to the 2 Ω resistor. Explanation Given data: Refer to the given figure in the textbook for the RLC series circuit. Consider that the following values. 12 V m = 296.09 V V m = 24.6742 V And The time T is 2094.4 ms. Calculation: Re-draw the given figure s -domain and it is shown in Figure 1. Write the expression for the fundamental frequency. ω 0 = 2 π T Substitute 2094.4 ms for T . ω 0 = 2 π 2094.4 ms = 3 rad/s The value of j ω 0 k is j 3 k . Write the expression for the voltage across the resistor using Figure 1. V R = 2 2 + s + ( 1 / s ) ( V g ) V R = 2 s V g s 2 + 2 s + 1 (1) H ( s ) = V R V g (2) Substitute Equation (1) in (2). H ( s ) = 2 s V g s 2 + 2 s + 1 V g H ( s ) = 2 s s 2 + 2 s + 1 (3) Substitute j ω 0 k for s in Equation (3). H ( j ω 0 k ) = 2 ( j ω 0 k ) ( j ω 0 k ) 2 + 2 ( j ω 0 k ) + 1 Substitute 3 rad/s for ω 0 . H ( j 3 k ) = 2 ( j 3 k ) ( j 3 k ) 2 + 2 ( j 3 k ) + 1 = j 6 k ( 1 − 9 k 2 ) + j 6 k Consider the expression for the Fourier transform of the periodic voltage function. v g ( t ) = 12 V m π 2 ∑ n = 1 , 3 , 5 , ⋅ ⋅ ⋅ ∞ 1 n 2 sin n π 3 sin n ω 0 t V (4) The voltage expression of v g 1 by using Equation (4) as follows. v g 1 = 12 V m π 2 1 1 2 sin 1 π 3 sin 1 ω 0 t V Substitute 24.6742 V for V m . v g 1 = 12 ( 24.6742 V ) π 2 1 1 2 sin 1 π 3 sin 1 ω 0 t V = 25.98 sin ω 0 t V Convert time-domain form to phasor form. V g 1 = 25.98 ∠ 0 ° V Substitute j 3 for s in Equation (2). H ( j 3 ) = 2 ( j 3 ) ( j 3 ) 2 + 2 ( j 3 ) + 1 = j 6 − 8 + j 6 = 0.6 ∠ − 53.13 ° Write the expression for the voltage V R 1 . V R 1 = ( V g 1 ) H ( j 3 ) Substitute 0.6 ∠ − 53.13 ° for H ( j 3 ) and 25.98 ∠ 0 ° V for V g 1 . V R 1 = ( 25.98 ∠ 0 ° V ) ( 0.6 ∠ − 53.13 ° ) = 15.588 ∠ − 53.13 ° V Consider the expression for the power P 1 . P 1 = ( | V R 1 | 2 ) 2 2 Substitute 15.588 ∠ − 53.13 ° V for V R 1 . P 1 = ( | 15.588 ∠ − 53.13 ° V | 2 ) 2 2 = ( ( 15.588 ) 2 ) 2 2 = 60

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Chapter 16.6, Problem 7AP

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