(The signal)
(The signal)
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<math>x(t) = 4cos(2t) + 3sin(2t)\!</math>
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<math>x(t) = 4cos(3t) + 3sin(2t)\!</math>
  
  
The fundamental period of this signal is <math>\frac{2\pi}{\pi}\!</math>, which is equal to <math>\pi\!</math>.
+
The fundamental period, denoted as <math>T\!</math>, of this signal is <math>2\pi\!</math>. The fundamental frequency, denoted <math>omega_0\!</math>, is defined as:
 +
 
 +
 
 +
<math>omega_0 = <math>frac{T}{2\pi}\!</math>
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The value of this is <math>\frac{2\pi}{2\pi}\!</math>, which coincidently, by no planning of mine, turns out to be <math>1\!</math>.

Revision as of 16:31, 24 September 2008

The signal

The signal I chose to use is as follows:


$ x(t) = 4cos(3t) + 3sin(2t)\! $


The fundamental period, denoted as $ T\! $, of this signal is $ 2\pi\! $. The fundamental frequency, denoted $ omega_0\! $, is defined as:


$ omega_0 = <math>frac{T}{2\pi}\! $


The value of this is $ \frac{2\pi}{2\pi}\! $, which coincidently, by no planning of mine, turns out to be $ 1\! $.

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