Team:SDU-Denmark/project-m

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(Difference between revisions)
(Flagella dynamics)
(A 2-D model of the system)
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In this chapter we will present our model a bit more precisely and present some of the results it has given us.
In this chapter we will present our model a bit more precisely and present some of the results it has given us.
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The 2-D model consists of a one dimensional grid, to which flagella are attached. Each flagellum produces a force which creates a flow which pushes every other flagellum, and thus a dynamic system is created. To calculate how big the flow will be at a given point, a vector from the tip of the force-producing flagellum to the point where you wish to know the flow must be created. To know how a flagellum is affected by the flow, the flow at the tip of the flagellum must be calculated.  
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The 2-D model consists of a one dimensional grid, to which flagella are attached. Each flagellum produces a force which creates a flow which pushes the other flagellum, and thus a dynamic system is created. To calculate how big the flow will be at a given point, a vector from the tip of the force-producing flagellum to the point where you wish to know the flow must be created. To know how a flagellum is affected by the flow, the flow at the tip of the flagellum must be calculated.  
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Once you have this vector and the vector corresponding to the force. The flow can be calculated using stokeslet or the Oseen-Blake tensor, depending on whether there is a wall nearby. In our system there is a wall so we will be using the Oseen-Blake tensor. This means that we are also required to find a vector from the mirrorpoint of the force, to the point at which we wish to know the flow.
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Once you have this vector and the vector corresponding to the force, the flow can be calculated using stokeslet or the Oseen-Blake tensor, depending on whether there is a wall nearby. In our system there is a wall so we will be using the Oseen-Blake tensor. This means that we are also required to find a vector from the mirrorpoint of the force to the point at which we wish to know the flow.<br>
After this it is a matter of summarizing over all the flagella to find the total flowfield.
After this it is a matter of summarizing over all the flagella to find the total flowfield.

Revision as of 15:59, 24 October 2010