Team:Paris Saclay/Modeling

From 2014.igem.org

(Difference between revisions)
Line 2: Line 2:
=Modeling=
=Modeling=
-
To realise our artwork, we use an agarose gel to obtain the shape of a lemon. To push the resemblance to the extreme, we wish to have a crust in the edge of the lemon when we seperate it. In fact, we build bacteria who produce yellow/green color in presence of oxygen. Thus we must evaluate the penetration of the oxygen in the gel. To simplify the problem, we consider that the diffusion of oxygen particle occurs only in one direction.
+
To realise our artwork, we use an agarose gel to obtain the shape of a lemon. To push the resemblance to the extreme, we wish to have a crust in the edge of the lemon when we seperate it. In fact, we build bacteria who produce yellow/green color in presence of oxygen. Thus we must evaluate the penetration of the oxygen in the gel!
 +
 
 +
To simplify the problem, we consider that the diffusion of oxygen particle occurs only in one direction.

Revision as of 15:04, 8 August 2014

Modeling

To realise our artwork, we use an agarose gel to obtain the shape of a lemon. To push the resemblance to the extreme, we wish to have a crust in the edge of the lemon when we seperate it. In fact, we build bacteria who produce yellow/green color in presence of oxygen. Thus we must evaluate the penetration of the oxygen in the gel!

To simplify the problem, we consider that the diffusion of oxygen particle occurs only in one direction.


\[ \bigg( \frac{\partial}{\partial t} - D \frac{\partial^2}{\partial x^2} \bigg) n(x,t) = 0 \]