When we look at the past, we see an universe, with less complexity and more homogeneous. So the question arises naturally. Where does order comes from? What are the roots of form? A model was presented in 1951 by Alan Turing in his paper the chemical origins of morphogenesis. Two chemicals react and diffuse. Instability due to differente diffusion rates, makes the chemicals play a order generation pattern.

When we look at the past, we see an universe, with less complexity and more homogeneous. So the question arises naturally. Where does order comes from? What are the roots of form? A model was presented in 1951 by Alan Turing in his paper the chemical origins of morphogenesis. Two chemicals react and diffuse. Instability due to differente diffusion rates, makes the chemicals play a order generation pattern.

When we look at the past, we see an universe, with less complexity and more homogeneous. So the question arises naturally. Where does order comes from? What are the roots of form? A model was presented in 1951 by Alan Turing in his paper the chemical origins of morphogenesis. Two chemicals react and diffuse. Instability due to differente diffusion rates, makes the chemicals play a order generation pattern.

When we look at the past, we see an universe, with less complexity and more homogeneous. So the question arises naturally. Where does order comes from? What are the roots of form? A model was presented in 1951 by Alan Turing in his paper the chemical origins of morphogenesis. Two chemicals react and diffuse. Instability due to differente diffusion rates, makes the chemicals play a order generation pattern.

& Filed under reaction-diffusion, morphogenesis, Notes

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An exploration between Art and Science. Tinkering with code, building meaning structures, little unfinished artworks that are the result of a meaning process, with an evolving shape...