(New page: == Signal == Compute the Fourier series coefficients of the following signal: <font size=4><math>x(t) = 3cos(7t) + 11sin(4t)</math></font> == Fourier series == <font size=4><math>x(...)
 
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Compute the Fourier series coefficients of the following signal:
 
Compute the Fourier series coefficients of the following signal:
 
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<math>x(t) = 3cos(7t) + 11sin(4t)\!</math>
<font size=4><math>x(t) = 3cos(7t) + 11sin(4t)</math></font>  
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== Fourier series ==
 
== Fourier series ==
  
 
+
<math>x(t) = 3cos(7t) + 11sin(4t)\!</math>
<font size=4><math>x(t) = 3cos(7t) + 11sin(4t)</math></font>  
+
  
 
<math>x(t) = 3\frac{e^{i7t}+ e^{-i7t}}{2} + 11\frac{e^{i4t}- e^{-i4t}}{2i}</math>
 
<math>x(t) = 3\frac{e^{i7t}+ e^{-i7t}}{2} + 11\frac{e^{i4t}- e^{-i4t}}{2i}</math>
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== Coefficients ==
 
== Coefficients ==
 
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<math>w_0=1\!</math>
<font size=4><math>w_0=1</math></font>
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<math>a_4= \frac{11}{2i}</math>
 
<math>a_4= \frac{11}{2i}</math>
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<math>a_7=a_{-7}= \frac{3}{2}</math>
 
<math>a_7=a_{-7}= \frac{3}{2}</math>
  
<font size=4><math>a_k = 0</math> </font> for all other<math>k \in \mathbb{Z}</math>
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<math>a_k = 0\!</math> for all other <math>k \in \mathbb{Z}</math>

Revision as of 10:52, 26 September 2008

Signal

Compute the Fourier series coefficients of the following signal: $ x(t) = 3cos(7t) + 11sin(4t)\! $


Fourier series

$ x(t) = 3cos(7t) + 11sin(4t)\! $

$ x(t) = 3\frac{e^{i7t}+ e^{-i7t}}{2} + 11\frac{e^{i4t}- e^{-i4t}}{2i} $

$ x(t) = \frac{3}{2}e^{i7t}+ \frac{3}{2}e^{-i7t} + \frac{11}{2i}e^{i4t}- \frac{11}{2i}e^{-i4t} $


Coefficients

$ w_0=1\! $

$ a_4= \frac{11}{2i} $

$ a_{-4}= -\frac{11}{2i} $

$ a_7=a_{-7}= \frac{3}{2} $

$ a_k = 0\! $ for all other $ k \in \mathbb{Z} $

Alumni Liaison

Ph.D. 2007, working on developing cool imaging technologies for digital cameras, camera phones, and video surveillance cameras.

Buyue Zhang