| GeneralModel_14 {SoilR} | R Documentation |
At the moment this is just a wrapper for the actual constructor Model_14 with additional support for some now deprecated parameters for backward compatibility. This role may change in the future to an abstract factory where the actual class of the created model will be determined by the supplied parameters.
GeneralModel_14( t, A, ivList, initialValF, inputFluxes, Fc = NULL, inputFc = Fc, di = -0.0001209681, solverfunc = deSolve.lsoda.wrapper, pass = FALSE )
t |
A vector containing the points in time where the solution is sought. |
A |
something that can be converted by GeneralDecompOp to any of
the available subclasses of |
ivList |
A vector containing the initial amount of carbon for the n pools. The length of this vector is equal to the number of pools and thus equal to the length of k. This is checked by an internal function. |
initialValF |
An object equal or equivalent to class ConstFc containing a vector with the initial values of the radiocarbon fraction for each pool and a format string describing in which format the values are given. |
inputFluxes |
something that can be converted by InFluxes to any of the available subclasses of InFluxes. |
Fc |
deprecated keyword argument, please use inputFc instead |
inputFc |
An object describing the fraction of C_14 in per mille (different formats are possible) |
di |
the rate at which C_14 decays radioactively. If you don't provide a value here we assume the following value: k=-0.0001209681 y^-1 . This has the side effect that all your time related data are treated as if the time unit was year. Thus beside time itself it also affects decay rates the inputrates and the output |
solverfunc |
The function used by to actually solve the ODE system.
This can be |
pass |
Forces the constructor to create the model even if it is invalid |
A model object that can be further queried.
TwopParallelModel, TwopSeriesModel,
TwopFeedbackModel