Synergy: Difference between revisions
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"Synergy -- here defined broadly as the combined (interdependent) effects produced by two or more parts, elements or individuals -- is a ubiquitous phenomenon in nature and human societies alike. Although it plays a prominent part in most, if not all, of the scientific disciplines, its importance is not widely appreciated because it travels under many different aliases, including emergence, cooperativity, symbiosis, coevolution, symmetry, order, epistasis, mutualism, interdependencies, heterosis, phase transitions, systemic effects, even complexity and "dynamical attractors." (A number of examples are provided to illustrate.) At the very least, the term "synergy" could be utilized as a pan-disciplinary lingua franca for the functional effects produced by cooperative phenomena of various kinds; a terminological shift would underscore the fact that the differently- named phenomena studied by various disciplines are in fact variations on a common theme in the natural world. But more important, synergistic effects of various kinds have also played a major causal role in the evolutionary process; in particular, synergistic effects have provided the underlying functional basis for the evolution of complex systems, in nature and human societies alike" | "Synergy -- here defined broadly as the combined (interdependent) effects produced by two or more parts, elements or individuals -- is a ubiquitous phenomenon in nature and human societies alike. Although it plays a prominent part in most, if not all, of the scientific disciplines, its importance is not widely appreciated because it travels under many different aliases, including emergence, cooperativity, symbiosis, coevolution, symmetry, order, epistasis, mutualism, interdependencies, heterosis, phase transitions, systemic effects, even complexity and "dynamical attractors." (A number of examples are provided to illustrate.) At the very least, the term "synergy" could be utilized as a pan-disciplinary lingua franca for the functional effects produced by cooperative phenomena of various kinds; a terminological shift would underscore the fact that the differently- named phenomena studied by various disciplines are in fact variations on a common theme in the natural world. But more important, synergistic effects of various kinds have also played a major causal role in the evolutionary process; in particular, synergistic effects have provided the underlying functional basis for the evolution of complex systems, in nature and human societies alike" | ||
(http://www.complexsystems.org/publications/synhypo.html) | (http://www.complexsystems.org/publications/synhypo.html) | ||
[[Buckminster Fuller]]: | |||
""Synergy means behavior of whole systems unpredicted by the behavior of their | |||
parts taken separately. Synergy means behavior of integral, aggregate, whole | |||
systems unpredicted by behaviors of any of their components or subassemblies of | |||
their components taken separately from the whole. Synergy is the only word that | |||
means this. The fact that we humans are unfamiliar with the word means that we | |||
do not think there are behaviors of "wholes" unpredicted by the behavior of | |||
"parts"." | |||
(http://www.synearth.net/Restricted-Confidential/OT.pdf) | |||
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[[Category:Relational]] | [[Category:Relational]] | ||
[[Category:Science]] | |||
[[Category:Synergy]] | |||
Revision as of 06:09, 27 April 2010
Synergy = combined (interdependent) effects produced by two or more parts, elements or individuals
Definition
"Synergy -- here defined broadly as the combined (interdependent) effects produced by two or more parts, elements or individuals -- is a ubiquitous phenomenon in nature and human societies alike. Although it plays a prominent part in most, if not all, of the scientific disciplines, its importance is not widely appreciated because it travels under many different aliases, including emergence, cooperativity, symbiosis, coevolution, symmetry, order, epistasis, mutualism, interdependencies, heterosis, phase transitions, systemic effects, even complexity and "dynamical attractors." (A number of examples are provided to illustrate.) At the very least, the term "synergy" could be utilized as a pan-disciplinary lingua franca for the functional effects produced by cooperative phenomena of various kinds; a terminological shift would underscore the fact that the differently- named phenomena studied by various disciplines are in fact variations on a common theme in the natural world. But more important, synergistic effects of various kinds have also played a major causal role in the evolutionary process; in particular, synergistic effects have provided the underlying functional basis for the evolution of complex systems, in nature and human societies alike" (http://www.complexsystems.org/publications/synhypo.html)
""Synergy means behavior of whole systems unpredicted by the behavior of their parts taken separately. Synergy means behavior of integral, aggregate, whole systems unpredicted by behaviors of any of their components or subassemblies of their components taken separately from the whole. Synergy is the only word that means this. The fact that we humans are unfamiliar with the word means that we do not think there are behaviors of "wholes" unpredicted by the behavior of "parts"." (http://www.synearth.net/Restricted-Confidential/OT.pdf)
More Information
- The Synergism Hypothesis, at http://www.complexsystems.org/publications/synhypo.html
Project
Synergy is also the name of a Linux project, see http://synergy2.sourceforge.net/
- "Synergy lets you easily share a single mouse and keyboard between multiple computers with different operating systems, each with its own display, without special hardware. It's intended for users with multiple computers on their desk since each system uses its own monitor(s)."