Fourier transform of single pulse & sequence of pulses

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Homework Help Overview

The discussion revolves around the Fourier transform of a single short pulse and a sequence of pulses, exploring the mathematical implications and characteristics of these transforms in the context of signal processing.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the nature of the Fourier transform, with some attempting to describe the frequency characteristics of a single pulse and a series of pulses. Questions arise about the interpretation of "sequence of pulses" and the implications of finite versus infinite pulses.

Discussion Status

Some participants express agreement with initial thoughts, while others seek clarification on specific terms and concepts. There is a recognition of the relationship between pulse width and frequency characteristics, and the discussion is exploring various interpretations without reaching a consensus.

Contextual Notes

Participants note that the mathematical details of Fourier transforms have not been covered in class, which may limit their ability to fully engage with the problem. There is also mention of assumptions regarding the nature of the pulse sequence, whether finite or infinite.

bfusco
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Homework Statement


What is the Fourier transform of a single short pulse and of a sequence of pulses?

The Attempt at a Solution


In class we haven't dealt with the mathematics of a Fourier transform, however my professor has simple stated that a Fourier transform is simply a equation converter. You can take equations that are a function of frequency and change them to a function of time, and vice versa.

With that said, i think that the Fourier transform of a single short pulse consists of an infinite amount of waves, that destructively interfere everywhere except one place.

From that i want to say a series of pulses is the sum of many waves that have phase relations that there is periodic constuctive interference, but destructive interference in between. I have no clue if this is correct.
 
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I think you are basically correct
 
By 'sequence of pulses' do you mean a finite number of pulses or an infinite number?
 
I believe infinite pulses, although the professor didn't specify
 
A single very short pulse has (in the limit) an infinite frequency spectrum. This is why one can determine characteristics of a filter by exciting the filter with a single pulse and then doing a Fourier transform on the output waveform to determine the filter characteristics.

A repeated pulse stream has discrete frequencies in the transform. The frequencies are multiples of the frequency of the puilse stream. However, the amplitude of the frequencies are determined by the width of the pulses and will form a Sin(x)/x envelope so to speak.
 
bfusco said:

Homework Statement


What is the Fourier transform of a single short pulse and of a sequence of pulses?

The Attempt at a Solution


In class we haven't dealt with the mathematics of a Fourier transform, however my professor has simple stated that a Fourier transform is simply a equation converter. You can take equations that are a function of frequency and change them to a function of time, and vice versa.

With that said, i think that the Fourier transform of a single short pulse consists of an infinite amount of waves, that destructively interfere everywhere except one place.
What do you mean " .. except in one place"?

From that i want to say a series of pulses is the sum of many waves that have phase relations that there is periodic constuctive interference, but destructive interference in between. I have no clue if this is correct.

I don't see how you can find the Fourier transform of anything if you haven't dealt with the math.

If the sequence is infinite in duration (past and future) then the Fourier transform represents an infinite number of discrete frequencies. Those frequencies appear in the Fourier series.
 

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