Why is the Fourier transform of 1 the 2pi*dirac(w) function

thomas49th · Mar 28, 2011

Homework Statement

Hi, I was wondering why the Fourier transform of 1 is

2\pi\delta(w)

I would of though that one would be of infinite frequencies (like a square wave).

Further more if g(t) = 1, for all t, g(t) = 1. Why does the Fourier transform have the argument of g(t) = 1 have an argument (w). g(t) has no frequency!

Thanks
Thomas

Dick · Mar 28, 2011

Wouldn't g(t)=1 have only zero frequency? It never oscillates at all. And isn't delta(w) the function in the frequency domain that only has zero frequency? It's only 'nonzero' at w=0. Make perfect sense to me.

thomas49th · Mar 28, 2011

good intuition. May I ask where the 2pi comes from again :)

Dick · Mar 28, 2011

thomas49th said:

good intuition. May I ask where the 2pi comes from again :)

It's a normalization of the Fourier transform. There's more than one convention for doing that. What's yours? I thought this question was more about intuition. The 2*pi has nothing to do with that. Take the inverse Fourier transform of 2*pi*delta(w). Do you get 1?

myth_kill · Mar 28, 2011

http://mathworld.wolfram.com/FourierTransform1.html

Why is the Fourier transform of 1 the 2pi*dirac(w) function

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