Find Fourier Transform of 1/1+4t^2

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SUMMARY

The Fourier transform of the function 1/(1+4t^2) can be approached using the scaling and duality properties of Fourier transforms. By substituting x=2t, one can simplify the expression and apply the relevant properties. The transformation can be expressed in terms of the integral \int{\frac{f(t)}{g(t)}dx}, where f(t) = e^{-jωt} and g(t) = 1 + 4t^2. The differentiation and integration rules must be carefully applied to avoid confusion in the process.

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  • Understanding of Fourier Transform properties
  • Familiarity with scaling and duality properties
  • Knowledge of differentiation and integration techniques
  • Basic concepts of complex functions
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  • Study the properties of Fourier Transform in detail
  • Learn about the scaling property in Fourier analysis
  • Explore the duality property of Fourier transforms
  • Practice solving integrals involving complex functions
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kolycholy
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how can I find Fourier transform of 1/(1+4t^2)?
hmmm =/
 
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try to take x=2t and use the symmetry or duality property and then the scaling property
 
Use the fact that your expression can be expressed as \int{\frac{f(t)}{g(t)}dx}, where f(t) = e^{-j\omega t}, g(t)=1+4t^{2} and proceed as stated by the rule. If i remember it correctly it goes something like \frac{f'(t)g(t)-g'(t)f(t)}{g(t)^{2}}
 
Last edited:
antoker said:
Use the fact that your expression can be expressed as \int{\frac{f(t)}{g(t)}dx}, where f(t) = e^{-j\omega t}, g(t)=1+4t^{2} and proceed as stated by the rule. If i remember it correctly it goes something like \frac{f'(t)g(t)-g'(t)f(t)}{g(t)^{2}}
You've mixed up differentiation and integration...
 
manchot is right ... so complicated ... i think the properties of the Fourier transformation is better
 
damn... you're right ;)
 
i tried taking a look at the Fourier transform properties..
but hmm, still confused
 
check the scaling and the symmetry property ... sorry i can't tell the answer ... it is the rules ...
 

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