Self-Organization In Living Systems -According to Prigogine, in a steady state situation the system is stable (i.e. damps out rate changes in irreversible processes) with respect to environmental perturbations (changes in flow rates). It minimizes its dissipation (due to irreversible processes). This is the MINIMUM DISSIPATION RULE. However, Prigogine shows that as the input flow rates increase, a critical threshold is approached. Beyond this threshold a catastrophe occurs. The system will rapidly dissipate energy and material and enter a new more ordered steady state. Just which new state is entered is determined by which flow rate exceeds its critical threshold first. -First, the second law of thermodynamics is the only physical law wi...
The Earth is a self-organized system. The source of information for self-organization is the degrada...
ABSTRACT We discuss two changes of paradigms that occurred in science along the XXth century: the en...
System science, studies important systems processes, among of them are elements in the life cycle of...
This work describes the kinetic conditions under which dissipation can compensate for the entropic c...
The question of how complex systems become more organized and efficient with time is open. Examples ...
Evolutionary physics studies the general behaviour of non equilibrium systems, subject to non-linear...
Work, by dissipative structures (DS), imposes delay on energy gradientdegradation. It diverts energy...
Our proposal is concerned with the organization of simple chemical catalysts into coordinated, compl...
Dissipative accounts of structure formation show that the self-organisation of complex structures is...
The thermodynamic models available in the literature predict that during self-organizing processes t...
This paper launches on the proposal by Eric D, Schneider and James J. Kay that life is a response to...
21 pages, 3 figuresInternational audienceWe study the statistical underpinnings of life. We question...
Today it is possible to finally go beyond the limits of the analytical paradigm by enriching it with...
Life is supported by a myriad of chemical reactions. To describe the overall process we have formula...
It is often stated that the macroevolution of life is driven toward increased Complexity, and indeed...
The Earth is a self-organized system. The source of information for self-organization is the degrada...
ABSTRACT We discuss two changes of paradigms that occurred in science along the XXth century: the en...
System science, studies important systems processes, among of them are elements in the life cycle of...
This work describes the kinetic conditions under which dissipation can compensate for the entropic c...
The question of how complex systems become more organized and efficient with time is open. Examples ...
Evolutionary physics studies the general behaviour of non equilibrium systems, subject to non-linear...
Work, by dissipative structures (DS), imposes delay on energy gradientdegradation. It diverts energy...
Our proposal is concerned with the organization of simple chemical catalysts into coordinated, compl...
Dissipative accounts of structure formation show that the self-organisation of complex structures is...
The thermodynamic models available in the literature predict that during self-organizing processes t...
This paper launches on the proposal by Eric D, Schneider and James J. Kay that life is a response to...
21 pages, 3 figuresInternational audienceWe study the statistical underpinnings of life. We question...
Today it is possible to finally go beyond the limits of the analytical paradigm by enriching it with...
Life is supported by a myriad of chemical reactions. To describe the overall process we have formula...
It is often stated that the macroevolution of life is driven toward increased Complexity, and indeed...
The Earth is a self-organized system. The source of information for self-organization is the degrada...
ABSTRACT We discuss two changes of paradigms that occurred in science along the XXth century: the en...
System science, studies important systems processes, among of them are elements in the life cycle of...