Fast Entropy

INTRODUCTION

The e th Law of Thermodyanics, also called the Principle of Fast Entropy, states that the entropy of a system shall increase as quickly as possible. Or stated more precisely, entropy increase shall be subject to the Principle of Least Time. The e th Law is subject to a further generalization akin to the Principle of Stationary Time.

The e th Law drives the emergence of life, intelligence and civilization. Hence, it can be used as the foundation for a unified sience of society. Since the laws of physics are held to be invariant across our universe, and further since such a social science is expressed in physical terms, then such a social science e th Law can be applied to any society any time and any where, whether on Earth regarding human society or elsewhere concerning extrasolar societies.

Fast Entropy applies to a wide range of phenomena. It explains rates of heat flow, biological reproduction rates, economic expansions and recessions, and human relationships. Fast Entropy can even be used to develop principles of policy development.

 

NTRODUCTORY PAMPHLET

INTRODUCTORY BOOK: Physical History and Economics, 2nd Edition, a mini-treatise (2009):

IMPLICATIONS

Just as the Copernican Revolution lead to a unified model of physical mechanics on Earth and in the heavens, making possible our modern high standards of living, the e th Law can lead to a revolution in the social sciences to allow a new, deeper understanding of our society that can allow us to successfully meet the unprecedented challenges faced by our society.

Further, the e th Law gives back spiritually what cold, hard science takes away. Life can be defined as the progression of the e th Law. Since, as living, intelligent organisms, we are products of the e th Law, we each have a personal connection to the progression of the Universe.

 Life is literally the production of entropy. Hence, we exist in a living universe, from the shining of stars, to the formation of clouds, to the emergence of intelligent, civilized humans. Our very essence is a cosmological process, and so our living beings are all connected to the universe itself.

RESEARCH AND PUBLICATIONS

Further Development and Critical Analysis of the Principle of Fast Entropy

  • Principle of Fast Entropy / e th Law of Thermodynamics (time-dependent thermodynamics)
  • Developing Improved Potential Functions
  • Identifying and Cataloguing Objections to PHE and Fast Entropy

Publications

Publications by Others

  • Annila, Arto, “The 2nd Law of Thermodynamics Delineates Dispersal of Energy”, Int. Rev. Phys. 29, 34, 2010.
  • Holland, Lawrence Rozier, “Crucible Surface, Thermal Refraction, Boundaries, and Interface Shape in Melt Growth”, Journal of Crystal Growth96: 577-583, 1989.
  • Holland, Lawrence Rozier, “Tangent Law of Refraction for Heat Conduction through an Interface and Underlying Variational Principle”, American Journal of Physics58: 988, 1990.
  • Brandon Toyama, “The Effects of Thermal Refraction in the Dissipation of Heat in a Heterogeneous Medium”, http://facweb.eths.k12.il.us/chemphys/research/BrandonHeatRefraction.htm, ~1998. Discusses a demonstration of L. Holland’s law of thermal “refraction”.
  • » View Bibliography for additional publications

Additional Publications

For more information, see Fast Entropy.com

Also see:

HeatSuite.com for thermodynamics educational software.