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My latest blog about a Yale University study demonstrating that "Gunshot violence follows an epidemic-like process of social contagion that is transmitted through networks of people by social interactions."

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Is futurism a part of complexity systems science?

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Сложноорганизованный мир биологического объекта.
Системология изучает общие принципы взаимодействия объектов внутри системы для общей цели - выживание всей системы

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Behavioral complexity and cooperation: small groups and memory.

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Do think tanks complicate problems more than they clearly and truthfully explain the complexity of issues?


New laws Systemology and second law of thermodynamics

The second law of thermodynamics in the statement of non-decreasing entropy, is often cited by critics of evolutionary development. On the basis of this law of thermodynamics it proved that the development of nature in the direction of increasing complexity is impossible. The second law of thermodynamics is formulated from the experience, and are based only on empirical data, it can not be deduced from the other axioms.

"The entropy of an isolated system can not decrease." However, the use of the term system is not justified. The totality of the particles, which are used for the experiments confirming the second law of thermodynamics, and are also used in work on the basis of the start mechanisms, can not be called a system. The particles and objects in a "system" does not interact or interaction can be neglected. However, this contradicts the basic criterion System as a set of interacting particles and subsystems. From this we can assume that the second law of thermodynamics has a particular application only for the set with no interaction between the particles, or the interaction between them which can be neglected. In the case of the consideration of the entropy is a system of interacting particles, it can both decrease over time or increase, depending on the complexity of the organization of the system. Thus we can assume that "the entropy of an isolated system can decrease or increase depending on the complexity of the system." The criteria under which the entropy increases or decreases from the measures necessary to study the complexity of the system and derive the second law of thermodynamics, the anti-closed systems.


The steady deployment of organizational complexity in the universe is a fundamental property of nature.

Organization structures works in physics, chemistry, biology, astronomy, and ecology. Spontaneous self-organization usually occurs in non-equilibrium, open, nonlinear systems with high feedback. Such systems are the norm rather than the exception. On the contrary, under review in physics, thermodynamics, chemistry or idealized closed system exception. Must exist new principles common to complex structures. Not yet discovered the General principles and laws behind the limits of known physics secnav. As the gravitational force cannot be defined at the level of a single particle, but only the interaction of a huge number of atoms constituting a gravitating body to have a significant value, and these patterns appear only in large, complex systems

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Addressing urban issues with complexity systems science.

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An argument for using gold to hedge against the "complex systems" of markets.
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