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:<math> \vec{v} \cdot \mathbf{\hat{a}}_\mathrm{m} = \sum_{i} v_\mathrm{i} \mathbf{\hat{a}}_\mathrm{i} \cdot \mathbf{\hat{a}}_\mathrm{m} = v_\mathrm{m} </math> |
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:<math> \vec{v} \cdot \mathbf{\hat{a}}_\mathrm{m} = \sum_{i} v_\mathrm{i} \mathbf{\hat{a}}_\mathrm{i} \cdot \mathbf{\hat{a}}_\mathrm{m} = v_\mathrm{m} </math> |
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:<math> \delta_\mathrm{i,m} \equiv \begin{cases} 1 & \mbox{if } i = m, \\ 0 & \mbox{else} \end{cases}</math> |
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:<math> \delta_\mathrm{i,m} \equiv \begin{cases} 1 & \mbox{if } i = m, \\ 0 & \mbox{else} \end{cases}</math> |
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:<math> x(t) = \sum^\infty_{n=1} \left[ b_n \sin \left( \left( \frac {2\pi n} {T} \right) t \right) \right] </math> |
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==Example== |
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==Example== |
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[[Image:January_5_graph_2.jpg|200px|thumb|left|Function waves with varying periods based on the function x(t) = x(t+T)]] |
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[[Image:January_5_graph_2.jpg|200px|thumb|left|Function waves with varying periods based on the function x(t) = x(t+T)]] |
Revision as of 15:17, 17 January 2010
Modeling functions as vectors. Using function approximations, the vector path is described.
This article covers the notes given in class on January 5, 2010.
Subjects Covered
1) Linear Systems
2) Functions as Vectors
Functions graphed in vector form.
Example
Function waves with varying periods based on the function x(t) = x(t+T)
![{\displaystyle x(t)=\sum _{n=1}^{\infty }\left[b_{n}\sin \left(\left({\frac {2\pi n}{T}}\right)t\right)\right]}](https://wikimedia.org/api/rest_v1/media/math/render/svg/1b15fa18143738e6bbe3d2aefb2cc8a5ac979bb7)
1) Use vector analogy
![{\displaystyle x(t)\cdot \sin \left({\frac {2\pi mt}{T}}\right)=\sum _{n=1}^{\infty }\left[b_{n}\sin \left(\left({\frac {2\pi n}{T}}\right)t\right)\cdot \sin \left({\frac {2\pi mt}{T}}\right)\right]}](https://wikimedia.org/api/rest_v1/media/math/render/svg/570a428f69ebcdd14e9a313bceea1472ddbf5f67)
External Links
Authors
Colby Fullerton
Brian Roath
