Coupled Horizontal Spring Mass Oscillator: Difference between revisions

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<math>\tilde{T}=\,</math></math><math>\begin{bmatrix}-.25&-.039528&.25&.039528 \\-.25&.039528&.25&-.039528 \\.25&.055902&.25&.055902 \\.25&-.055902&.25&-.055902\end{bmatrix}\,
<math>\tilde{T}=\,</math></math><math>\begin{bmatrix}-.25&-.039528&.25&.039528 \\-.25&.039528&.25&-.039528 \\.25&.055902&.25&.055902 \\.25&-.055902&.25&-.055902\end{bmatrix}\,
</math>

<math>\text {and}\,</math>

<math>\hat{A}=\,</math><math>\begin{bmatrix}e^{\lambda_1t}&0&0&0 \\0&e^{\lambda_2t}&0&0 \\0&0&e^{\lambda_3t}&0 \\0&0&0&e^{\lambda_4t}\end{bmatrix}\,
</math>

<math>e^{\hat{A}t}=\,</math><math>\begin{bmatrix}e^{2\sqrt{10}t}&0&0&0 \\0&e^{-2\sqrt{10}t}&0&0 \\0&0&e^{2\sqrt{5}t}&0 \\0&0&0&e^{-2\sqrt{5}t}\end{bmatrix}\,
</math>
</math>

Revision as of 19:12, 9 December 2009

Coupled Oscillator Spring Mass Oscillator: State Space

Problem Statement

Two 4 Kg Weights are suspended between two walls. They are connected by a spring between them with a spring constant k2. They are connected to the walls by two springs k1 and k3 with k1=k3. m1 is a distance x1 form m2 and m2 is x2 from the wall.


Solution

Things we know

=


=




,,,


Solve with the Matrix exponential



</math>