Team:EPF-Lausanne/Results
From 2009.igem.org
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* <big>Density</big> | * <big>Density</big> | ||
Using EXCEL, we obtain the following graph, which represents the evolution of the density in function of time: | Using EXCEL, we obtain the following graph, which represents the evolution of the density in function of time: | ||
- | <br> | + | <br>[[Image:Density.jpg]] |
<br>The first part corresponds the the heating, then we let the system reach an equilibrium (NPT state), a NVT portion, and finally a NPT portion again. | <br>The first part corresponds the the heating, then we let the system reach an equilibrium (NPT state), a NVT portion, and finally a NPT portion again. | ||
Revision as of 09:45, 21 September 2009
Equilibration of light and dark state
Here is our first movie from the modeling, showing the behavior of the protein in the dark state condition: Dark State
Dark state
After having modified some parameters in the parameter files, here is our second movie, concerning the light state of the protein this time, with the FMN: Light State
Light state
Analysis
- Maxwell-Boltzmann Energy Distribution
We obtain the following histogramm!
- Temperature
Using EXCEL, we obtain the following graph, which represents the evolution of the temperature in function of time:
The first part corresponds the the heating, then we let the system reach an equilibrium (NPT state), a NVT portion, and finally a NPT portion again.
- Density
Using EXCEL, we obtain the following graph, which represents the evolution of the density in function of time:
The first part corresponds the the heating, then we let the system reach an equilibrium (NPT state), a NVT portion, and finally a NPT portion again.
- Pressure
Here is a small plot of pressure and temperature in function of time