Explanation Given data: The coefficients of the trigonometric Fourier series are, b n = 0 . a n = 6 n 3 − 2 , n = 0 , 1 , 2 , ⋯ . ω n = 50 n . Formula used Write the expression to calculate the exponential Fourier series. f ( t ) = ∑ n = − ∞ ∞ c n e j n ω 0 t (1) Here, c n is the new Fourier coefficient, n is an integer, ω 0 is the angular frequency. The equation (1) is also re-written as follows, f ( t ) = c 0 + ∑ n = − ∞ n ≠ 0 ∞ c n e j n ω 0 t (2) Here, c 0 is the dc component of the complex Fourier series. Write the expression to calculate the new Fourier coefficient c n . c n = a n − j b n 2 (3) Here, a n and b n are the Fourier coefficients. Write the expression to calculate the harmonic angular frequency. ω n = n ω 0 (4) Calculation: Refer to equation 17.56 in the textbook, the relationship between the dc components is, c 0 = a 0 (5) Here, a 0 is the dc component of the Fourier series. Substitute 0 for n in a n to find a 0 . a 0 = 6 0 3 − 2 = 6 − 2 = − 3 Therefore, the equation (5) becomes, c 0 = a 0 = − 3 Substitute 50 n for ω n in equation (4) to find n ω 0

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Chapter 17, Problem 57P

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Find the exponential Fourier series for a given function.

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Chapter 17, Problem 56P

Chapter 17, Problem 58P

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Chapter 17 Solutions

Fundamentals of Electric Circuits

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