Subscribe to RSS feed
Demonstrations 101 - 120 of 150
Periodic and Damped-Oscillatory Behavior of the Oregonator
The Schnakenberg Reaction
Chemical Reactions Described by the Lorenz Equations
Chlorite-Iodide-Malonic Acid (CIMA) Reaction
Maximizing Conversion to an Intermediate Product in a Chain of Three CSTRs in Series
Control of Thermal Runaway of an Exothermic Reaction by Coupling with an Endothermic Reaction
Chemical Reaction Trajectories Using Bézier Curves
Mapping the Maxima for a Nonisothermal Chemical System
Maxima and Minima for the Three-Variable Autocatalator
Combustion of Methane Using Block Cellular Automata (BCA) with Feedback
Simple Arrhenius Model for Activation Energy and Catalysis
Debye Length in a Symmetric Electrolyte Solution
Double-Well Reaction Dynamics
Nonlinear Chemical Dynamics: The Peroxidase-Oxidase Reaction
The Iodine Clock Reaction
Corrosion Mechanism for Stainless Steel
Thermodynamic Properties of Acetylene Using Cubic Equations of State
Deterministic versus Stochastic Chemical Kinetics
The #1 tool for creating Demonstrations
and anything technical.
Explore anything with the first
computational knowledge engine.
The web's most extensive
Course Assistant Apps »
An app for every course—
right in the palm of your hand.
Wolfram Blog »
Read our views on math,
science, and technology.
Computable Document Format »
The format that makes Demonstrations
(and any information) easy to share and interact with.
STEM Initiative »
Programs & resources for
educators, schools & students.
Join the initiative for modernizing
Note: Your message & contact information may be shared with the author of any specific Demonstration for which you give feedback.
© 2016 Wolfram Demonstrations Project & Contributors |
Note: To run this Demonstration you need Mathematica 7+ or the free Mathematica Player 7EX
Download or upgrade to
Mathematica Player 7EX
I already have