Systematic errors in the calculation of kinetic parameters by the polarographic method

The importance of statistical errors on the different parameters involved in the Gran addition technique has been discussed in Part I of this series'. In order to obtain optimal predtsion in volume V, obt;dmc~ b,v e~W4xsasjo4 fm paramekrs V miw V,, C, C,, N (for definitions, see Part I) should be ch

## Abstract An evaluation of the extended kinetic method with full entropy analysis was conducted using RRKM theory to simulate data for collision‐induced dissociation under single‐collision conditions. A rigorous method for analyzing kinetic method data, orthogonal distance regression, is introduc

Formulas axe established for the errors in the eigenvalues obtained by using standard Numerov integration methods. These error estimates can be used to derive more accurate eigenvalues without the necessity of increasing the number of iteration steps.

Kinetic parameters of the electrode reaction of the Zn&+/Zn(Hg) electrode have been determined at various concentrations of supporting electrolyte by the polarographic and the potentiostatic methods. The corrections for the effect of the electrical double layer have been made on these parameters. At

We give B description or a variauon-perturbalion approach IO calculaling intermolecular pok.nlrals that possess a syslematic cancellation ol errors. An important consequence is the posabihty or uslog integrals over AOs that arc quile approximate.