HW 06: Difference between revisions
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|<math>=\int_{-\infty}^{\infty}\,o(t)\,\left[\cos(2\,\pi\,f\,t)+j\,\sin(2\,\pi\,f\,t)\right]</math> |
|<math>=\int_{-\infty}^{\infty}\,o(t)\,\left[\cos(2\,\pi\,f\,t)+j\,\sin(2\,\pi\,f\,t)\right]\,dt</math> |
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|Euler's identity |
|Euler's identity |
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|<math>=\int_{-\infty}^{\infty}\,o(t)\,j\,\sin(2\,\pi\,f\,t)</math> |
|<math>=\int_{-\infty}^{\infty}\,o(t)\,j\,\sin(2\,\pi\,f\,t)\,dt</math> |
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|Even function integrates out over symmetric limits |
|Even function integrates out over symmetric limits |
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|<math>=\int_{-\infty}^{\infty}\,\left[\mbox{Im }e(t) \mbox{ and an Im }o(f)\right]\,dt</math> |
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|<math>=Imaginary Even function of Time & Imaginary Odd function of Frequency </math> |
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|<math>=\mbox{Im }o(f)\,\!</math> |
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|Time integrates out |
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*The odd function of time has no component (ie. 0) of frequency. Thus it is an even function in frequency. |
*The odd function of time has no component (ie. 0) of frequency. Thus it is an even function in frequency. |
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===Functions=== |
===Functions=== |
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*Even*Even=Even |
*Even*Even=Even |
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==Solution== |
==Correct Solution== |
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Latest revision as of 15:38, 3 December 2008
Problem
Figure out why seems to equal an imaginary odd function of frequency, but there is no j.
Background
This is the incorrect solution derived in class. Cosine is incorrect, because a real odd function of time, ,should map to an imaginary odd function of frequency.
Proof
Euler's identity | ||
Even function integrates out over symmetric limits | ||
Time integrates out |
- The odd function of time has no component (ie. 0) of frequency. Thus it is an even function in frequency.
Functions
- Even*Even=Even
- Odd*Odd=Even
- Odd*Even=Odd