Week of 11/5
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{{mathematica|filename=Sincinterpolation.nb|title=Sinc function interpolation via the samping theorem}} | {{mathematica|filename=Sincinterpolation.nb|title=Sinc function interpolation via the samping theorem}} | ||
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+ | Mathematica can find the fourier transform of a box function of width h centered on zero times <math>sin(2 \pi x)</math>: | ||
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+ | <math>-\frac{i \sqrt{\frac{2}{\pi }} \left(2 \pi \cos (h \pi ) \sin \left(\frac{h k}{2}\right)-k \cos \left(\frac{h k}{2}\right) \sin (h \pi )\right)}{4 \pi ^2-k^2} | ||
+ | </math> | ||
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+ | {{mathematica|filename=Sinpiece.nb|title=FT of finite sines}} | ||
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+ | {{PDF|filename=11-7-07.pdf|title=11-7-07 notes}} | ||
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+ | {{mathematica|filename=Timingfft.nb|title=timing the fft}} | ||
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+ | {{mathematica|filename=Nyquist.nb|title=Nyquist exercise}} | ||
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+ | {{mathematica|filename=Sounds.nb|title=cool sound examples with Mathematica}} | ||
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+ | {{PDF|filename=11_9_07.pdf|title=11-9-07 notes}} | ||
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+ | [[Image:3pointnyquist.png]] |
Latest revision as of 21:01, 6 December 2007
Here is the display of my oscilloscope when the input is a 1000 pulse per second output of a time-code generator. (The time-code generator is a device that locks to the 10 MHz output of an atomic clock and produces 1 Hz or 1 KHz pulse trains as well as human readable time synchronized to the atomic standard.)
I imported the data and plotted it along with its periodogram.
Notice that only the odd harmonics are present.
Here is a mathematica notebook that simulates this.
Download lots of fourier transform examples |
Sampling theorem. See 10/31/07 lecture notes
We end up with
This amounts to taking samples of the data every 1 / 2fs and multiplying them by a sinc function and adding up the results.
Download Sinc function interpolation via the samping theorem |
Mathematica can find the fourier transform of a box function of width h centered on zero times sin(2πx):
Download FT of finite sines |
Download 11-7-07 notes |
Download timing the fft |
Download Nyquist exercise |
Download cool sound examples with Mathematica |
Download 11-9-07 notes |