Team:Valencia UPV/Modeling/diffusion
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<p><strong>Introduction</strong></p> | <p><strong>Introduction</strong></p> | ||
<p>Sexually communication among moths is accomplished chemically by the release of an “odor”: sexual pheromones. Pheromones are molecules that can be carried by a diffusion process in which the random movement of gas molecules transport the chemical away from its source. Pheromone chemicals obey to the diffusion equation, resulting in a straightforward application of the mathematics of a diffusing source. (referencia Lecture 9)</p> | <p>Sexually communication among moths is accomplished chemically by the release of an “odor”: sexual pheromones. Pheromones are molecules that can be carried by a diffusion process in which the random movement of gas molecules transport the chemical away from its source. Pheromone chemicals obey to the diffusion equation, resulting in a straightforward application of the mathematics of a diffusing source. (referencia Lecture 9)</p> | ||
+ | <p>The equation of diffusion that we will use in this project to model the pheromones dispersion will adopt the form of the heat equation, and will be solved by the Euler numeric approximation. <a href="#">See more about heat equation and mathematical expressions for Euler method.</a></p> | ||
</div> | </div> | ||
Revision as of 19:41, 14 September 2014
Introduction
Sexually communication among moths is accomplished chemically by the release of an “odor”: sexual pheromones. Pheromones are molecules that can be carried by a diffusion process in which the random movement of gas molecules transport the chemical away from its source. Pheromone chemicals obey to the diffusion equation, resulting in a straightforward application of the mathematics of a diffusing source. (referencia Lecture 9)
The equation of diffusion that we will use in this project to model the pheromones dispersion will adopt the form of the heat equation, and will be solved by the Euler numeric approximation. See more about heat equation and mathematical expressions for Euler method.
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