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| phaseR-package | Phase Plane Analysis of One and Two Dimensional Autonomous ODE Systems |
| competition | Species Competition Model |
| example1 | Example ODE System Number One |
| example10 | Example ODE System Number Ten |
| example11 | Example ODE System Number Eleven |
| example12 | Example ODE System Number Twelve |
| example13 | Example ODE System Number Thirteen |
| example14 | Example ODE System Number Fourteen |
| example15 | Example ODE System Number Fifteen |
| example2 | Example ODE System Number Two |
| example3 | Example ODE System Number Three |
| example4 | Example ODE System Number Four |
| example5 | Example ODE System Number Five |
| example6 | Example ODE System Number Six |
| example7 | Example ODE System Number Seven |
| example8 | Example ODE System Number Eight |
| example9 | Example ODE System Number Nine |
| exponential | The Exponential Growth Model |
| flowField | Flow Field |
| lindemannMechanism | The Lindemann Mechanism |
| logistic | The Logistic Growth Model |
| lotkaVolterra | The Lotka Volterra Model |
| monomolecular | The Monomolecular Growth Model |
| nullclines | Nullclines |
| numericalSolution | Numerical Solution and Plotting |
| phasePortrait | Phase Portrait Plot |
| phaseR | Phase Plane Analysis of One and Two Dimensional Autonomous ODE Systems |
| simplePendulum | The Simple Pendulum |
| SIR | The SIR Epidemic Model |
| stability | Stability Analysis |
| trajectory | Phase Plane Trajectory Plotting |
| vanDerPol | The Van Der Pol Oscillator |
| vonBertalanffy | The von Bertalanffy Growth Model |