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Homework 1, ECE438, Fall 2011, Prof. Boutin

Question 1

In ECE301, you learned that the Fourier transform of a step function $ x(t)=u(t) $ is the following:

$ {\mathcal X} (\omega) = \frac{1}{j \omega} + \pi \delta (\omega ). $

Use this fact to obtain an expression for the Fourier transform $ X(f) $ (in terms of frequency in hertz) of the step function. (Your answer should agree with the one given in this table.) Justify all your steps.

Answer: Recall the relation between frequency in hertz $ f $ and frequency in radius $ \omega $

$ \omega =2\pi f $

Pull in the relation into the fact, we obtain

$ {\mathcal X}(2\pi f) = \frac{1}{j 2\pi f} + \pi \delta (2\pi f ). $

Then we justify the following equality.

$ \delta(ax) = \frac{1}{a}\delta(x) $

Given $ \int\limits_{-\infty}^{\infty}\delta(x)dx=1 $



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