Problem to be solved
In our project, we want to stop the movement of C.crescentus to image a stable photo. So we need to know whether we have stopped those excited boys. One problem about this is, how to define and measure the parameter of the C.crescentus' motion?
Analysis of the problem
Here we make the hypothesis below.
- the solution is uniform, which means the composition of every part in the solution is the same
- the number of the bacteria would not change in short time. the motion of the C.crescentus is random and they can be regarded as free gas.
- the motion of the C.crescentus is random and they can be regarded as free gas.
And we suppose the distance one bacterium moved in time $t$ is $l$. Then the diffusion coefficient D can be defined as
$$D=l^2/(2t)$$
As you can guess, we are going to use $D$ to describe the motion of C.crescentus in stead of velocity. The reason is that the object of our study is a large crowd of bacteria, and it is more suitable to use diffusion coefficient as the parameter of the system.
In fact, $D$ describe the diffusion rate of bacteria. It's easy to predict that after we give the signal "stop", $D$ would decline because the C.crescentus can not get the help from the rotation of their flagellum and the holdfast would block their movement.
But, how can we measure the value of the diffusion coefficient?
Getting the help from Einstein
In early years of last century, Einstein focused on the motion of free gas, and got the famous Einstein Relation:
$$/
With this theory, we can develop a method to measure the value of $D$. Firstly we use micro camera to record the motion of bacteria. And then we focus on several bacteria's movement locus to count $/
Modeling results
We use Mathematics to simulating the motion of several bacteria, and calculate square of the distance from original point, plot it with steps $n$(refer to Fig)
From the figure we can conclude that different diffusion coefficients correspond to different slopes of the fitting line. So we can develop a experimental method to evaluate the parameter of the system.
- This work is chiefly done by Hongda Jiang, with the assistance of Fangming Xie.
- This article is written by Hongda Jiang, edited by Fangming Xie.