16.28 The periodic square-wave voltage seen seen in Fig. P16.28(a) is applied to the circuit shown in Fig. P16.28(b). Derive the first three nonzero terms in the Fourier series that represents the steady-state voltage vo if Vm= 157 V and the period of the in- put voltage is 47 ms. Figure P16.28 VI Vm 0 -Vm T/2 (a) T 1 + Vi 10 Ω www 10 mH , (b)

16.28 The periodic square-wave voltage seen seen in Fig. P16.28(a) is applied to the circuit shown in Fig. P16.28(b). Derive the first three nonzero terms in the Fourier series that represents the steady-state voltage vo if Vm= 157 V and the period of the in- put voltage is 47 ms. Figure P16.28 VI Vm 0 -Vm T/2 (a) T 1 + Vi 10 Ω www 10 mH , (b)

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Concept explainers

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 volumes and frequencies. The term Fourier amendment refers to each illustration of the frequency range and the mathematical functionality related to the representation of the frequency domain and the function of space or time.

Question

Please show all steps clearly, thank you.

16.28 The periodic square-wave voltage seen in
Fig. P16.28(a) is applied to the circuit shown in
Fig. P16.28(b). Derive the first three nonzero terms
in the Fourier series that represents the steady-state
voltage vo if Vm 157 V and the period of the in-
put voltage is 47 ms.
Figure P16.28
Vi
Vm
0
-Vm
T/2 T
(a)
t
+
Vi
10 Ω
W
(b)
+
10 mH ,

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