Aimed at electrochemical researchers, graduate students, and anyone else who understands or is studying electrochemical fundamentals, this book explains how to use
Mathematica to simulate electrochemical problems and obtain analytical solutions.
The accompanying CD-ROM contains an electronic version of the book in
Mathematica notebook format with many additional related notebooks, as well as an extra chapter of
Mathematica exercises, tips, and notes.
A chapter-by-chapter
tour of the book is available online.
Solving Partial Differential Equations | Finite Difference Methods | Increasing the Speed and Accuracy of Computations | Other Numerical Methods | Potential Sweep Methods 1: Reversible Reactions | Potential Sweep Methods 2: Non-reversible Reactions | AC Voltammetry | Potential Steps and Potential Pulses | Chronopotentiometry | Electrochemistry of Thin Layers and Thin Films | Electrochemistry of Strongly Adsorbed Molecules | Monte Carlo Simulations | Coupled Chemical Reactions | Rotating Disk Electrode Voltammetry | Finite Difference Simulations using Sparse Arrays | Processing Experimental Data | Appendix 1. Taylor Series Expansions | Appendix 2. Semiintegration and Fractional Calculus
http://www.ijournals.net/SERM
Chemistry
