Team:SDU-Denmark/notebook

From 2010.igem.org

(Difference between revisions)
(Retinal Production)
(Modelling)
Line 63: Line 63:
== Modelling ==  
== Modelling ==  
-
<br>
+
* Read articles about modelling the flagella movement and their influence on the water flow.  
-
''''' July 1st '''''
+
* Looked at the equations describing the system from the article to get an idea of how the physics is applied. The following articles was used in this progress; <br><br>
-
<br>
+
-
''Progress report:'' <br>
+
-
The last couple of days we have been reading articles about modelling the flagella movement and their influence on the water flow. Because we need to understand the physics of the system before we are able to model it. Today we have been looking at the equations describing the system from the article to get an idea of how the physics is applied. The following articles have been used in this progress; <br><br>
+
[http://docs.google.com/viewer?a=v&pid=wave&srcid=8e-fLRxU2&chrome=true]  
[http://docs.google.com/viewer?a=v&pid=wave&srcid=8e-fLRxU2&chrome=true]  
''Synchronization in a carpet of hydrodynamically coupled rotors with random intrinsic frequency'' N. Uchida 1 and R. Golestanian 2,  ELP(Europhysics Letters) volume 89, number 5. <br><br>
''Synchronization in a carpet of hydrodynamically coupled rotors with random intrinsic frequency'' N. Uchida 1 and R. Golestanian 2,  ELP(Europhysics Letters) volume 89, number 5. <br><br>
[http://docs.google.com/viewer?a=v&pid=wave&srcid=sz1nqWu52&chrome=true]
[http://docs.google.com/viewer?a=v&pid=wave&srcid=sz1nqWu52&chrome=true]
''The physics of flagellar motion of E. coli during chemotaxis'' M. Siva Kumar and P. Philominathan Biophysical Reviews Volume 2, Number 1 / February, 2010. <br><br>
''The physics of flagellar motion of E. coli during chemotaxis'' M. Siva Kumar and P. Philominathan Biophysical Reviews Volume 2, Number 1 / February, 2010. <br><br>
-
''Working hypothesise:'' <br>
+
* Met with our advisor Associate professor Julian C. Shillcock, PhD (SDU) who helped us plan a model for the system using the article; <br><br>
-
Understanding the physics of flagella systems, their movement in a fluid and their effects on the fluids, is important for setting up models describing the system we would like to produce. We haven’t yet found a model describing our system fully and this is therefore our next assignment. <br><br>
+
-
 
+
-
--[[User:Toand|Toand]] 15:29, 2 July 2010 (UTC)
+
-
<br><br>
+
-
''''' July 2nd '''''
+
-
<br>
+
-
''Progress report:'' <br>
+
-
Today we continued looking at the equations from the article, then had a meeting with Associate professor Julian C. Shillcock, PhD (SDU) who help us plan a model for the system. Our further work will consist of connecting the physics to the system and device equations that describe it. The article uses was: <br><br>
+
[http://docs.google.com/viewer?a=v&pid=wave&srcid=8e-fLRxU2&chrome=true]
[http://docs.google.com/viewer?a=v&pid=wave&srcid=8e-fLRxU2&chrome=true]
Synchronization in a carpet of hydrodynamically coupled rotors with random intrinsic frequency N. Uchida 1 and R. Golestanian 2, ELP(Europhysics Letters) volume 89, number 5.  <br><br>
Synchronization in a carpet of hydrodynamically coupled rotors with random intrinsic frequency N. Uchida 1 and R. Golestanian 2, ELP(Europhysics Letters) volume 89, number 5.  <br><br>
-
''Working hypothesise:'' <br>
 
-
A set of rigid screws with one end attached to a surface with the ability to bend in an angel θi and generate a force Fi. The forces generated by a screw may influence the angel of other screws and the effect the entire system witch in term affects the first screw. When the physics of the system is determined we hope to model variations of θi with the force Fi. <br><br>
 
-
 
-
--[[User:Toand|Toand]] 08:46, 4 July 2010 (UTC)
 
-
<br><br>
 
= Week 28 =
= Week 28 =

Revision as of 21:42, 23 October 2010