Team:Glasgow/Modeling Part2 align=

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<img id="flotation" class = "allimage" src="https://static.igem.org/mediawiki/2014/6/6c/GU_bouyancy.PNG"/>
<img id="flotation" class = "allimage" src="https://static.igem.org/mediawiki/2014/6/6c/GU_bouyancy.PNG"/>
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<p>Normally, a bacterium's density is greater than water (E.Coli is about 1100kg/m^3, compared to water's 998kg/m^3 <br>at 20 degrees Celcius).  The presence of gas vesicles replaces some of the mass of the cell with lighter gas, <br>thus reducing the density. <br>
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As with the random walk model, we'll state our assumptions up here.<br>
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<li>The density of a gas vacoule would be 250kg/m3, a value obtained by Walsby in his study of the cyanobacteria <em>anabaea flos-aquae</em> </li>
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<li> It is believed that the bacteria will increase in volume as a result of gas vesicle production.  We'll roughly estimate this to be half the % of total volume the vesicles will fill.</li>
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<li>Again, we assume the bacteria is a sphere. </li>
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Revision as of 09:22, 8 August 2014

Bubble Test Page








Section 2: Bacteria and Buoyancy With the main focus of our project being the gas vesicles, we decided to model the effect that they would have on the
bacterium's path.

The net force on the bacterium should be positive for floatation to occur. This force is composed of three components:
The buoyancy force, the force due to gravity and Stokes drag force. They are applied thus:


Normally, a bacterium's density is greater than water (E.Coli is about 1100kg/m^3, compared to water's 998kg/m^3
at 20 degrees Celcius). The presence of gas vesicles replaces some of the mass of the cell with lighter gas,
thus reducing the density.
As with the random walk model, we'll state our assumptions up here.

  • The density of a gas vacoule would be 250kg/m3, a value obtained by Walsby in his study of the cyanobacteria anabaea flos-aquae
  • It is believed that the bacteria will increase in volume as a result of gas vesicle production. We'll roughly estimate this to be half the % of total volume the vesicles will fill.
  • Again, we assume the bacteria is a sphere.
Click here to edit this page