# System Dynamics

**Version:**0.8.5

**License:**GPL

**Release:**10/17/2017

**Authors:**Gilberto Camara and Pedro R. Andrade

**Depends:**terrame (>= 2.0), sci (>= 0.3)

## Models | |

ChaoticGrowth | A Model that describes a chaotic population growth. |

Coffee | Simple model that simulates the temperature of a cup of coffee. |

Daisyworld | An implementation of the daisy world model. |

Dam | A water in the dam model. |

Homeostasis | A model to show homeostasis taking place. |

LimitedGrowth | A model that simulates limited growth. |

Lorenz | Classic Lorenz Model to study chaos. |

MonoLake | A model for the Mono Lake problem. |

PopulationGrowth | Simple model that simulates the growth of two populations. |

PredatorPrey | Model that implements predatory-prey dynamics. |

RandomWalk | Simple random walk model, where a given value can be added by one or subtracted by one randomly. |

RoomTemperature | Simple model that simulates the temperature of three rooms. |

SIR | A Susceptible-Infectious-Recovered (SIR) Model to study epidemics. |

Tub | A simple water in the tub model. |

Yeast | A yeast growth model. |

## Examples | |

coffee-scenarios |
Three scenarios for the Coffee model. |

infection-scenarios-1 |
Simulation of three instances of SIR model using different infection durations. |

infection-scenarios-2 |
Simulation of three instances of SIR model using different infection probabilities. |

infection-scenarios-3 |
Simulation of two instances of SIR model using an educational campaign. |

population-scenarios-1 |
Simulation of two instances of PopulationGrowth model. |

population-scenarios-2 |
Simulation of two instances of PopulationGrowth model using a negative feedback in the growth change. |

tub-scenarios |
Two scenarios for the Tub model. |