## rootSolve: Nonlinear root finding, equilibrium and steady-state analysis of
ordinary differential equations

Routines to find the root of nonlinear functions, and to perform steady-state and equilibrium analysis of ordinary differential equations (ODE).
Includes routines that: (1) generate gradient and Jacobian matrices (full and banded),
(2) find roots of non-linear equations by the Newton-Raphson method,
(3) estimate steady-state conditions of a system of (differential) equations in full, banded or sparse form, using the Newton-Raphson method, or by dynamically running,
(4) solve the steady-state conditions for uni-and multicomponent 1-D, 2-D, and 3-D partial differential equations, that have been converted to ODEs
by numerical differencing (using the method-of-lines approach).
Includes fortran code.

Version: |
1.6.5.1 |

Depends: |
R (≥ 2.01) |

Published: |
2014-11-06 |

Author: |
Karline Soetaert [aut, cre],
yale sparse matrix package authors [cph] |

Maintainer: |
Karline Soetaert <karline.soetaert at nioz.nl> |

License: |
GPL-2 | GPL-3 [expanded from: GPL (≥ 2)] |

NeedsCompilation: |
yes |

Citation: |
rootSolve citation info |

In views: |
DifferentialEquations |

CRAN checks: |
rootSolve results |

#### Downloads:

#### Reverse dependencies:

Reverse depends: |
bvpSolve, diffdepprop, diffEq, ecolMod, FME, hsdar, kmc, mkin, pbatR, ReacTran, weightedScores |

Reverse imports: |
BayesCR, condGEE, fbati, LLSR, nettools, RadTran, rodd, sdprisk |