website statistics Thermoinfocomplexity: A New Theory: Origin of Life and Evolution of Complex Adaptive Systems - PDF Books Online
Hot Best Seller

Thermoinfocomplexity: A New Theory: Origin of Life and Evolution of Complex Adaptive Systems

Availability: Ready to download

Thermoinfocomplexity combines the stochastic interplay of energy and information that leads to the emergence of complex adaptive systems. It is scale-free and applies to the emergence of molecules, man and society. The theory carefully develops the physico-chemical rationale behind the selection of complex systems based on their efficient extraction and utilization of ener Thermoinfocomplexity combines the stochastic interplay of energy and information that leads to the emergence of complex adaptive systems. It is scale-free and applies to the emergence of molecules, man and society. The theory carefully develops the physico-chemical rationale behind the selection of complex systems based on their efficient extraction and utilization of energy from their environment. Thermoinfocomplexity also explains the scaling laws of metabolism from bacteria to amoeba, man, and human society. A good metaphor for this process (shown on the front cover) is the trajectory of a ball, (photon) that travels down a pinball machine. A bacteria provides a simple and human a very complex path for the pinball (Gibbs free-energy) to travel. Finally, the energy of the living matter dissipates as heat, increasing the entropy of the universe as per second law of thermodynamics.


Compare

Thermoinfocomplexity combines the stochastic interplay of energy and information that leads to the emergence of complex adaptive systems. It is scale-free and applies to the emergence of molecules, man and society. The theory carefully develops the physico-chemical rationale behind the selection of complex systems based on their efficient extraction and utilization of ener Thermoinfocomplexity combines the stochastic interplay of energy and information that leads to the emergence of complex adaptive systems. It is scale-free and applies to the emergence of molecules, man and society. The theory carefully develops the physico-chemical rationale behind the selection of complex systems based on their efficient extraction and utilization of energy from their environment. Thermoinfocomplexity also explains the scaling laws of metabolism from bacteria to amoeba, man, and human society. A good metaphor for this process (shown on the front cover) is the trajectory of a ball, (photon) that travels down a pinball machine. A bacteria provides a simple and human a very complex path for the pinball (Gibbs free-energy) to travel. Finally, the energy of the living matter dissipates as heat, increasing the entropy of the universe as per second law of thermodynamics.

33 review for Thermoinfocomplexity: A New Theory: Origin of Life and Evolution of Complex Adaptive Systems

  1. 4 out of 5

    Dr.Prasanth Prathi

  2. 4 out of 5

    Chido

  3. 4 out of 5

    Roger Gonzalez

  4. 5 out of 5

    Stephen

  5. 5 out of 5

    Kendall Costello

  6. 5 out of 5

    Neetesh Rathod

  7. 4 out of 5

    Terrence

  8. 4 out of 5

    Nina

  9. 4 out of 5

    ΔRT

  10. 5 out of 5

    Olympio

  11. 4 out of 5

    Joni Baboci

  12. 5 out of 5

    Hrimiuc Mihai

  13. 4 out of 5

    Vineet

  14. 5 out of 5

    Francescop1

  15. 5 out of 5

    Christopher Alert

  16. 4 out of 5

    Marek Suscak

  17. 5 out of 5

    Jon

  18. 4 out of 5

    Sakshi

  19. 4 out of 5

    Prasad

  20. 4 out of 5

    Daniel

  21. 4 out of 5

    Naveen

  22. 4 out of 5

    Sam Stagg

  23. 5 out of 5

    Paweł

  24. 5 out of 5

    Adi

  25. 4 out of 5

    Amit

  26. 4 out of 5

    Palash Agrawal

  27. 5 out of 5

    Sowmya Garigipati

  28. 4 out of 5

    Alok Jain

  29. 5 out of 5

    Ravivarma

  30. 5 out of 5

    April

  31. 4 out of 5

    Eric Soderstrom

  32. 4 out of 5

    Frank Abagnale

  33. 5 out of 5

    Todd Paul

Add a review

Your email address will not be published. Required fields are marked *

Loading...