Explanation Given data: i s ( t ) = 8 e − t u ( t ) A (1) Calculation: Refer to Figure 18.49 in the text book for impedance circuit. Apply Fourier transform to equation (1). F [ i s ( t ) ] = F [ 8 e − t u ( t ) ] I s ( ω ) = 8 1 + j ω Modify Figure 18.49 as shown in Figure 1 in terms of frequency domain. By current division rule, write the expression for output current I o ( ω ) . I o ( ω ) = 1 ( 1 + 2 j ω ) I s ( ω ) From Figure 1, write the expression for output voltage V o ( ω ) V o ( ω ) = 2 j ω I o ( ω ) Substitute 1 ( 1 + 2 j ω ) I s ( ω ) for I o ( ω ) as follows. V o ( ω ) = [ ( 2 j ω ) ( 1 + 2 j ω ) I s ( ω ) ] Substitute 8 1 + j ω for I s ( ω ) as follows. V o ( ω ) = [ ( 2 j ω ) ( 1 + 2 j ω ) ( 8 1 + j ω ) ] = [ ( 2 j ω ) ( j ω + 2 j ω ) ( 8 1 + j ω ) ] = ( 2 2 + j ω ) ( 8 1 + j ω ) = 16 ( 2 + j ω ) ( 1 + j ω ) Consider s = j ω to reduce complex algebra. Substitute s for j ω as follows. V o ( s ) = 16 ( s + 2 ) ( s + 1 ) Take partial fraction for the equation. V o ( s ) = A s + 1 + B s + 2 (2) Where A = ( s + 1 ) V o ( s ) | s = − 1 Substitute 16 ( s + 2 ) ( s + 1 ) for V o ( s ) as follows

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Fourier Transform

In mathematics, the Fourier transformation is a mathematical transformation that rotates responsibilities by using region or time into tasks depending on the local or temporal frequency, such as the rendering of a musical track in step with existing volu…

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Chapter 18, Problem 47P

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Find the value of voltage vo(t) in Figure 18.49.

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Chapter 18, Problem 46P

Chapter 18, Problem 49P

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Report:- 1. Plot (total core loss / cycle) as a function of frequency. 2. Evaluate (K & K2 )corresponding to value of (voltage & frequency). 3. Calculate hysteresis and eddy current losses at rated voltage and frequency.

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EBK FUNDAMENTALS OF ELECTRIC CIRCUITS

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