Team:Imperial College/Motility
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Solving this first order ODE, we derive an expression for cell velocity: | Solving this first order ODE, we derive an expression for cell velocity: | ||
- | [[Image:Velocity.JPG| | + | [[Image:Velocity.JPG|200px|center]]<br> |
- | where [[Image:Para_1.JPG| | + | where [[Image:Para_1.JPG|100px|center]]<br> |
Solving the first order ODE for displacement, we derive an expression for cell trajectory: | Solving the first order ODE for displacement, we derive an expression for cell trajectory: | ||
- | [[Image:Displacement.JPG| | + | [[Image:Displacement.JPG|200px|center]]<br> |
Using our fitted data, we are able to determine parameters: | Using our fitted data, we are able to determine parameters: | ||
- | [[Image:Parameter.JPG| | + | [[Image:Parameter.JPG|200px|center]]<br> |
In this model, we attempt to obtain a distribution for the flagellar force, which is represented by parameter ''A''. We assume that the medium is homogenous and the drag coefficient is constant throughout the medium, hence the distribution of flagellar force will be sufficiently be described by parameter A. | In this model, we attempt to obtain a distribution for the flagellar force, which is represented by parameter ''A''. We assume that the medium is homogenous and the drag coefficient is constant throughout the medium, hence the distribution of flagellar force will be sufficiently be described by parameter A. |
Revision as of 17:15, 23 October 2008
Motility Analysis
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