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[[Category:2019 Spring ECE 301 Boutin]]
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[[Category:ECE301]]
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[[Category:ECE]]
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[[Category:slecture]]
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<center><font size= 4>21 Savage in MATLAB</font size>
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A [http://www.projectrhea.org/learning/slectures.php slecture] by [[ECE]] student Jeff Rodrigues
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Partly based on the [[https://www.projectrhea.org/rhea/index.php/2019_Spring_ECE_301_Boutin|ECE301 Spring 2019]] lecture material of Boutin.
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</center>
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----
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----
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==Introduction==
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I am going to compute some fourier series coefficients.
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----
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==CT signals==
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<math>
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\begin{align}
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\bar f(x) &= \oint_S g(x) dx \\
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&= \int_a^b g(x) dx \\
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&= \frac{\mu_0}{2 \pi a \cdot b}\\
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& = \int_a^{-\infty} jzdhfbvzjhvz dt \\
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& = \sum_{k=0}^{-\infty} kzdjfgdzjkfg
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\end{align}
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</math>
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----
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==DT signals==
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----
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----
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==[[2019_Spring_ECE_301_Boutin_21 Savage in MATLAB_Jeff Rodrigues_comments | Questions and comments]]==
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If you have any questions, comments, etc. please post them [[2019_Spring_ECE_301_Boutin_21 Savage in MATLAB_Jeff Rodrigues_comments|here]].
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----
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[[https://www.projectrhea.org/rhea/index.php/2019_Spring_ECE_301_Boutin|Back to 2019 Spring ECE 301 Boutin]]
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Revision as of 13:54, 22 April 2019


21 Savage in MATLAB

A slecture by ECE student Jeff Rodrigues

Partly based on the [Spring 2019] lecture material of Boutin.



Introduction

I am going to compute some fourier series coefficients.


CT signals

$ \begin{align} \bar f(x) &= \oint_S g(x) dx \\ &= \int_a^b g(x) dx \\ &= \frac{\mu_0}{2 \pi a \cdot b}\\ & = \int_a^{-\infty} jzdhfbvzjhvz dt \\ & = \sum_{k=0}^{-\infty} kzdjfgdzjkfg \end{align} $


DT signals



Questions and comments

If you have any questions, comments, etc. please post them here.


[to 2019 Spring ECE 301 Boutin]


Alumni Liaison

Correspondence Chess Grandmaster and Purdue Alumni

Prof. Dan Fleetwood