DerivFit:A Program for Rate Equation Parameter Fitting Using Derivatives

This paper describes a microcomputer program written in BASIC for fitting different two-substrate enzyme kinetic mechanisms. The present program is a complement of one which was recently published and was developed to fit different models of enzyme inhibition. The complete program resulting from thi

This algorithm uses a high-order, variable step Runge-Kutta like method in the region where the potential term dominates, and an exponential or Bessel fitted method in the asymptotic region. This approach can be used to compute scattering phase shifts in an efficient and reliable manner. A Fortran p

## Abstract A general rate equation is derived for crystallization and precipitation which takes into account the effects of initial supersaturation and particle density change during the process. Three special cases are distinguished, including those spontaneously initiated. Pitfalls are indicated

## Abstract A program system is described for the integration of the rate equations resulting from large systems of elementary reactions. The Gear integration method is used for this problem, which frequently may exhibit stiffness instability when other integration methds are employed. No usage of