Revision as of 14:52, 21 September 2010

Models

The members of the dry lab are simulating the different components of the full system. Three main components can be identified:

The difussion of the chemoattractanct through the medium.
The motion of the bacterias through the medium due to the gradient on the chemoattractanct concentration.
The chemoattractant generation within the bacteria.

Chemoattractant Diffusion

The basic equations for the diffusion of the chemoattractant in the medium are the Fick laws of diffusion, which govern the variation of the concentration of a substance within a medium.

Bacteria motion

Chemical reactions

Tools

Footer

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 <br /><br />
-== '''Models''' ==
+<html>
+<h1>Models</h1>
-The members of the dry lab are simulating the different components of the full system.
+The members of the dry lab are simulating the different components of the full system. Three main components can be identified:
+<ol>
+<li>The difussion of the chemoattractanct through the medium. </li>
+<li>The motion of the bacterias through the medium due to the gradient on the chemoattractanct concentration.</li>
+<li>The chemoattractant generation within the bacteria. </li>
+</ol>
-=== Chemoattractant Diffusion===
-The basic equations for the diffusion of the chemoattractant in the medium are the Fick laws of diffusion, which govern the variation of the concentration of a substance within a medium.
+<h2>Chemoattractant Diffusion</h2>
-<math>J = -D \frac{\partial \phi}{\partial x}</math>
+The basic equations for the diffusion of the chemoattractant in the medium are the Fick laws of diffusion, which govern the variation of the concentration of a substance within a medium.
-=== Bacteria motion ===
+<h2> Bacteria motion</h2>
-=== Chemical reactions ===
+<h2>Chemical reactions</h2>
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-== Tools ==
+<h1>Tools</h1>
+</html>
 </div>
 {{:Team:UPO-Sevilla/footer}}
 </div>

Team:UPO-Sevilla/Modeling

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