Class Notes 1-5-2010: Difference between revisions

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:<math> \mathbf{\hat{v}} = v_\mathrm{x} \mathbf{\hat{i}} + v_\mathrm{y} \mathbf{\hat{j}} </math>
:<math> \mathbf{\hat{v}} = v_\mathrm{x} \mathbf{\hat{i}} + v_\mathrm{y} \mathbf{\hat{j}} </math>
:<math> \mathbf{\hat{v}} = \sum_{i} v_\mathrm{i} \mathbf{\hat{a}}_\mathrm{i} </math>
:<math> \mathbf{\hat{v}} = \sum_{i} v_\mathrm{i} \mathbf{\hat{a}}_\mathrm{i} </math>

:<math> x(t) = \sum^\infty_{n=1} \left[ b_n \sin \left( \left( \frac {2\pi n} {T} \right) t \right) \right] </math>





Revision as of 14:37, 17 January 2010

Subjects Covered

1) Linear Systems

2) Functions as Vectors


Functions graphed in vector form.


Modeling functions as vectors. Using function approximations, the vector path is described.


Function waves with varying periods based on the function x(t) = x(t+T)


External Links

Authors

Colby Fullerton

Brian Roath