Difference between revisions of "Figure 5.7: Phase portrait and time domain simulation for a system with a single stable equilibrium point"
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| rowspan=3 | [[Image:figure-5.7-stable_eqpt-pp.png]] | | rowspan=3 | [[Image:figure-5.7-stable_eqpt-pp.png]] | ||
| − | | <math> \begin{aligned} \dot x_1 &= x_2 \\ \dot x_2 &= -x_1 \end{aligned} </math> | + | | align=center | <math> \begin{aligned} \dot x_1 &= x_2 \\ \dot x_2 &= -x_1 \end{aligned} </math> |
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| rowspan=2 | [[Image:figure-5.7-stable_eqpt-time.png]] | | rowspan=2 | [[Image:figure-5.7-stable_eqpt-time.png]] | ||
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Revision as of 05:41, 7 April 2024
| Chapter | Dynamic Behavior |
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| Figure number | 5.7 |
| Figure title | 5.7: Phase portrait and time domain simulation for a system with a single stable equilibrium point |
| GitHub URL | https://github.com/murrayrm/fbs2e-python/blob/main/figure-5.7-stable-eqpt.py |
| Requires | python-control |
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Figure 5.7: Phase portrait and time domain simulation for a system with a single stable equilibrium point. The equilibrium point $x_\text{e}$ at the origin is stable since all trajectories that start near $x_\text{e}$ stay near $x_\text{e}$.