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Team:Paris Saclay/Modeling
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| - | + | To synthesize the smell of lemon, we have to mainly produce a combination of Limonene, Geraniol and Pinene. We propose a study of the evolution of the concentration of each product over time by using the technique Michaelis-Menten. | |
| - | To synthesize the smell of lemon, we have to mainly produce a combination of Limonene, Geraniol and Pinene. | + | |
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Revision as of 10:17, 14 October 2014
Contents |
Modeling
Countdown
This page is under Juliettes responsibility
- Deadline: 08/oct.
- Introduction text
- Deadline: 12/oct
- Final review.
Introduction
No panic and do not run away because of seeing some mathematical formula : maths are fun and some parts are understandable by everyone !
Morever, we have tried to illustrate our work with figures which could be understood for themselves, without knowing the method to get it. We will just add one or two -for the warrior- star(s) to parts which need more mathematical background in order to don't disgust not-mathematical readers from mathematics.
Just click on the title of the part you are interest in !
Oxygen Diffusion
Eugène's abstract
Bacterial Growth
This part aims to predict the bacterial population growth on an ellipsoidal object - a fake lemon in practice - over time. We will here limit ourself to the study the overall growth, exprimed in concentration of bacteria.
Fusion Proteine
Arnaud's abstract
Odor
To synthesize the smell of lemon, we have to mainly produce a combination of Limonene, Geraniol and Pinene. We propose a study of the evolution of the concentration of each product over time by using the technique Michaelis-Menten.
