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Iremnurtokac (talk | contribs) (/* This project is an attempt to explore the crystallization process of MgSO4 and discuss whether it is affected by physical environment or not in terms of 3D geometries. The main concern of the project is to examine ways to manipulate the structure) |
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= Crystallization Morphology affected by Space= | = Crystallization Morphology affected by Space= | ||
< This project is an attempt to explore the crystallization process of MgSO4 and discuss whether it is affected by physical environment or not in terms of 3D geometries. The main concern of the project is to examine ways to manipulate the structure of output pattern of crystallization. Previous studies hinted that crystallization morphology differs based on the distinct height of the solution in identical containers. Therefore, the idea of testing different geometrical shapes as containers and observing the variety of crystallization outcomes as a project was occurred. The overall concept is to analyze complex structures like crystals by intervening the formalization process and evaluate the outcomes in comparison. After several experiments, we might able to unveil some computational system behind the crystal growth morphology.> | |||
[[File:BioArt-1-petri-dish.png]] | [[File:BioArt-1-petri-dish.png]] | ||
Revision as of 22:16, 5 April 2016
Crystallization Morphology affected by Space
< This project is an attempt to explore the crystallization process of MgSO4 and discuss whether it is affected by physical environment or not in terms of 3D geometries. The main concern of the project is to examine ways to manipulate the structure of output pattern of crystallization. Previous studies hinted that crystallization morphology differs based on the distinct height of the solution in identical containers. Therefore, the idea of testing different geometrical shapes as containers and observing the variety of crystallization outcomes as a project was occurred. The overall concept is to analyze complex structures like crystals by intervening the formalization process and evaluate the outcomes in comparison. After several experiments, we might able to unveil some computational system behind the crystal growth morphology.>