GMU:BioArt WS15/Crystals and cellular automata: Difference between revisions

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Despite Miller's definition of living systems, their hierarchization might appear interesting at the levels introduced, which include atoms, organizations, and supranational systems. The definition also proposes that there is a non-living system on both sides of the hierarchy. On one side, there are inorganic molecules and, on the other side, inorganic planets and galaxies that demonstrate self-organized processes.
Despite Miller's definition of living systems, their hierarchization might appear interesting at the levels introduced, which include atoms, organizations, and supranational systems. The definition also proposes that there is a non-living system on both sides of the hierarchy. On one side, there are inorganic molecules and, on the other side, inorganic planets and galaxies that demonstrate self-organized processes.


More: [http://www.isss.org/primer/earthsys.htm]
More: [http://www.isss.org/primer/earthsys.htm|Miller, J. G. (1982). “The earth as a system.”]


=== chemical elements and chemical compounds ===
=== chemical elements and chemical compounds ===

Revision as of 19:02, 17 November 2015

Life-like Processes in Inorganic Systems

planets

Despite Miller's definition of living systems, their hierarchization might appear interesting at the levels introduced, which include atoms, organizations, and supranational systems. The definition also proposes that there is a non-living system on both sides of the hierarchy. On one side, there are inorganic molecules and, on the other side, inorganic planets and galaxies that demonstrate self-organized processes.

More: J. G. (1982). “The earth as a system.”

chemical elements and chemical compounds

For example, carbon itself, in the form of a crystal, is considered to be inorganic, but carbon as one element of some compound, wherein part of it is, for example, water, is considered necessary element for forming organic matter (consider alcohol, C2H6O, or methane, CH4). The complexity of defining living systems suggests that, even in the sciences, the border between the living and non-living varies depending on the context, and, therefore, it might be that the concept of life in the context of the human-machine distinction should be approached differently.

crystals: snowflakes, diamonds, and table salt

According to Miller's definition, self-organization emerging from interaction between matter and energy is a natural feature within living systems that lets them survive and continue to propagate. However, if only matter and energy were considered, self-organization would not be an exception in inorganic systems. On the contrary, growing crystals, including snowflakes, diamonds, and table salt, demonstrate life-like and self-organized processes. Life-like processes might be observed in turbulent flows, such as cigarette smoke, streams of moving vehicles, or oceanic currents. Biological evolution also suggests that organic forms evolved from inorganic forms, so, self-organized processes driven by matter and energy, as introduced by Miller, should not be considered a feature of organic nature alone.

Crystals

structure

crystallization and cellular automata

organigenic crystals and pearls

Emergence of Creative Forms in Cellular Automata

patterns: snowflakes, diamonds, and table salt

cellular automata, fractals and universal computation

game of life and CA demonstrating universal computation

Examples

Joe Davis, Bacterial Radio

Carsten Nicolai “Snow Noise”

Roger Hiorns, Seizure

Martin Howse and Johnatan Kemp “the Crystal World”

Lab work (growing crystals)