Self similarity, and fractal structure can be obtained, repeating the same process, in different scales. Nature does it everywhere. So if we use a iterated function system, with a scale transformation, we can create natural patterns.

Self similarity, and fractal structure can be obtained, repeating the same process, in different scales. Nature does it everywhere. So if we use a iterated function system, with a scale transformation, we can create natural patterns.

∞ 25-Nov-2009  comments

Virtual particles are created with a lifespan dependant on their mass. The field is filled with uncertainty. Randomness is the rule, but you can break the symmetry, and introduce order. Attraction or repulsion, creates convergence or divergence. The color represents the mass of the particle, after a while color convergence happens naturally. The structure formed with the attraction force is not stable, because particles keep dying, and the system keeps “forgetting” the order created. If we don’t add a driving force, the system falls back into maximum entropy…

Virtual particles are created with a lifespan dependant on their mass. The field is filled with uncertainty. Randomness is the rule, but you can break the symmetry, and introduce order. Attraction or repulsion, creates convergence or divergence. The color represents the mass of the particle, after a while color convergence happens naturally.

The structure formed with the attraction force is not stable, because particles keep dying, and the system keeps “forgetting” the order created. If we don’t add a driving force, the system falls back into maximum entropy…

∞ 22-Nov-2009  comments

Self similarity, and fractal structure can be obtained, repeating the same process, in different scales. Nature does it everywhere. So if we use a iterated function system, with a scale transformation, we can create natural patterns.

Self similarity, and fractal structure can be obtained, repeating the same process, in different scales. Nature does it everywhere. So if we use a iterated function system, with a scale transformation, we can create natural patterns.

Virtual particles are created with a lifespan dependant on their mass. The field is filled with uncertainty. Randomness is the rule, but you can break the symmetry, and introduce order. Attraction or repulsion, creates convergence or divergence. The color represents the mass of the particle, after a while color convergence happens naturally. The structure formed with the attraction force is not stable, because particles keep dying, and the system keeps “forgetting” the order created. If we don’t add a driving force, the system falls back into maximum entropy…

Virtual particles are created with a lifespan dependant on their mass. The field is filled with uncertainty. Randomness is the rule, but you can break the symmetry, and introduce order. Attraction or repulsion, creates convergence or divergence. The color represents the mass of the particle, after a while color convergence happens naturally.

The structure formed with the attraction force is not stable, because particles keep dying, and the system keeps “forgetting” the order created. If we don’t add a driving force, the system falls back into maximum entropy…

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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...