Revision as of 14:04, 30 July 2022

Fourier Transform(Q6520159)

Fourier transform is the next level of the Fourier Series, it comes up with a way to approximate hole functions by using exponentials $e^{ikx}$ that means, unlike Fourier Series can only approximate a function on an interval, now we can approximate functions that are infinitely long.

Example for Fourier transform: We have a signal called $x(t)$ we will represent it in terms of the time domain. We also can represent it in another way which is called $x(f)$ we will represent it in terms of the frequency domain and This is why we called transformation. Fourier Transform is an equivalent representation of the signal.^[1]

Fourier Series equation $f(\omega )=\int f(x)e^{-i\omega x}dx$ ^[2]

Eulers formula $e^{ix}=\cos {\omega x}+i\sin {\omega x},$ </math> ^[3]

^[4] ^[5] ^[6] ^[7]

References

↑ Douglas, Brian (Jan 11, 2013). Introduction to the Fourier Transform. local page: Brian Douglas.
↑ Tan-Holmes, Jade (Jun 30, 2022). The Fourier Series and Fourier Transform Demystified. local page: Up and Atom.
↑ Tan-Holmes, Jade (Jun 30, 2022). The Fourier Series and Fourier Transform Demystified. local page: Up and Atom.
↑ starting at 9' 29" of the video
↑ Discretised, ed. (Aug 25, 2020). What is convolution? This is the easiest way to understand. local page: Discretised.
↑ Collings, Iain (Sep 9, 2019). What is convolution? This is the easiest way to understand. local page: Iain Explains Signals, Systems, and Digital Comms.
↑ Khutoryansky, Eugene (Aug 25, 2020). Fourier Transform, Fourier Series, and frequency spectrum. local page: Physics Videos by Eugene Khutoryansky.

Related Pages

[1] Douglas, Brian (Jan 11, 2013). Introduction to the Fourier Transform. local page: Brian Douglas.

[2] Tan-Holmes, Jade (Jun 30, 2022). The Fourier Series and Fourier Transform Demystified. local page: Up and Atom.

[3] Tan-Holmes, Jade (Jun 30, 2022). The Fourier Series and Fourier Transform Demystified. local page: Up and Atom.

[4] starting at 9' 29" of the video

[5] Discretised, ed. (Aug 25, 2020). What is convolution? This is the easiest way to understand. local page: Discretised.

[6] Collings, Iain (Sep 9, 2019). What is convolution? This is the easiest way to understand. local page: Iain Explains Signals, Systems, and Digital Comms.

[7] Khutoryansky, Eugene (Aug 25, 2020). Fourier Transform, Fourier Series, and frequency spectrum. local page: Physics Videos by Eugene Khutoryansky.

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@@ Line 4: / Line 4: @@
 Example for Fourier transform:
-We have a signal called <math>x(t)</math> we will represent it in terms of the time domain. We also can represent it in another way which is called <math>x(f)</math> we will represent it in terms of the frequency domain and This is why we called transformation. Fourier Transform is an equivalent representation of the signal.
+We have a signal called <math>x(t)</math> we will represent it in terms of the time domain. We also can represent it in another way which is called <math>x(f)</math> we will represent it in terms of the frequency domain and This is why we called transformation. Fourier Transform is an equivalent representation of the signal.<ref> {{:Video/Introduction to the Fourier Transform}}</ref>
 Fourier Series equation <math> f(\omega)= \int f(x) e^{-i \omega x } dx </math> <ref>{{:Video/The Fourier Series and Fourier Transform Demystified}}</ref>
@@ Line 13: / Line 13: @@
 <ref>{{:Video/What is convolution? This is the easiest way to understand}}</ref>
 <ref>{{:Video/Fourier Transform Equation Explained}}</ref>
-<ref> {{:Video/Introduction to the Fourier Transform}}</ref>
 <ref>{{:Video/Fourier Transform, Fourier Series, and frequency spectrum}}</ref>

Difference between revisions of "Fourier Transform"

Revision as of 14:04, 30 July 2022

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Difference between revisions of "Fourier Transform"

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