Wayne, James J. (2014): Generalized Second Law of Thermodynamics and Its Applications in Social Science.
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Abstract
The arrow-of-time phenomena are everywhere in the physical world, biological systems, and human society. Despite its great importance in physics, the second law of thermodynamics can only successfully explain small percentages of these arrow-of-time phenomena in the physical world, and generally not applicable in biology and human society. For example, the powerful second law of thermodynamics can neither explain arrow-of-time phenomena like Darwin’s evolution in biological systems, nor the globalization processes in human society. Most physicists regard the Darwinian evolution and human society as physical systems far away from thermodynamic equilibrium, which is a physics terminology means that the concept of entropy cannot be precisely defined and the second law of thermodynamics is not useful for studying the Darwinian evolution and human society. While the concept of equilibrium is one of the most important concepts in economics, the concept of equilibrium in economics and physics are two completely different concepts. This paper generalizes the second law of thermodynamics into a universal law of physics called law of equilibrium, which is universally applicable in any system governed by quantum mechanics including physical systems, biological systems, and human society. The concept of entropy in statistical physics is generalized using the concept of relative entropy or Kullback-Leibler divergence from the information theory. Law of equilibrium is one of five physics laws of social science, which is based on a new interpretation of quantum mechanics. In the framework of physics laws of social science, economics and other fields of social science become subfields of quantum physics. The concept of equilibrium and relative entropy are generalized to be equally applicable for all subfields of physics including biology and social science. Law of equilibrium provides a rock solid physics foundation to expand the traditional equilibrium analysis in economics and game theory into a universal mathematical framework useful to study social phenomena. This paper resolves two outstanding problems in modern physics: how to generalize the second law of thermodynamics to non-equilibrium physics, and the nature of arrow of time. This paper concludes that the irreversible processes and arrow of time phenomena in the physical world, biological systems, and human society are fundamentally the same quantum phenomena due to indeterministic nature of quantum events including human choices.
| Item Type: | MPRA Paper |
|---|---|
| Original Title: | Generalized Second Law of Thermodynamics and Its Applications in Social Science |
| Language: | English |
| Keywords: | equilibrium analysis, law of equilibrium, choice, evolution, Arrow of time, thermodynamics, interpretation of quantum mechanics, physics laws of social science |
| Subjects: | A - General Economics and Teaching > A1 - General Economics A - General Economics and Teaching > A1 - General Economics > A12 - Relation of Economics to Other Disciplines D - Microeconomics > D5 - General Equilibrium and Disequilibrium D - Microeconomics > D8 - Information, Knowledge, and Uncertainty H - Public Economics > H0 - General H - Public Economics > H6 - National Budget, Deficit, and Debt |
| Item ID: | 59734 |
| Depositing User: | Mr James J. Wayne |
| Date Deposited: | 07 Nov 2014 11:34 |
| Last Modified: | 26 Sep 2019 17:03 |
| References: | 1. Craig Callender, 2011. “Thermodynamic Asymmetry in Time”, the Stanford Encyclopedia of Philosophy, Fall 2011 Edition, Edward N. Zalta (ed.). 2. Thomas M. Cover and Joy A. Thomas, 1991. “Elements of Information Theory”, John Wiley & Sons, Inc, Hoboken, NJ 3. Edwin T. Jaynes, 1957. “Information Theory and Statistical Mechanics: I”, Physical Review 106 (4): 620-630 4. Edwin T. Jaynes, 1957. “Information Theory and Statistical Mechanics: II”, Physical Review 108 (2): 171-190 5. Yoshitsugu Oono and Macro Paniconi, 1997. “Steady State Thermodynamics”, Progress of Theoretical Physics Supplement No. 130, 1998 6. Rolf Landauer, 1993. “Statistical Physics of Machinery: Forgotten Middle-Ground”, Physica A, Vol. 194, 1993: 551-562 7. Takahiro Sagawa, 2014. “Second Law-Like Inequalities with Quantum Relative Entropy: An Introduction”, in “Lectures on Quantum Computing, Thermodynamics and Statistical Physics”, M. Nakahara and S. Tanaka eds., World Scientific, 2012 8. James J. Wayne, 2014. “Human Behavior Paradox and a Social Science Interpretation of Quantum Mechanics”, working paper, Munich University Library, Munich Personal RePEc Archive, 59718 (http://mpra.ub.uni-muenchen.de/59718/ ). 9. James J. Wayne, 2005. “Physics Laws of Social Science”, Lawrence Cedar House, New Jersey 10. James J. Wayne, 2013. “Physics Laws of Social Science”, working paper, Munich University Library, Munich Personal RePEc Archive, 47811 ( http://mpra.ub.uni-muenchen.de/47811/ ). 11. James J. Wayne, 2013. “Fundamental Equation of Economics”, working paper, Munich University Library, Munich Personal RePEc Archive, 59574 (http://mpra.ub.uni-muenchen.de/59574/ ). 12. James J. Wayne, 2014. “A Scientific Macroeconomic Model Derived from Fundamental Equation of Economics”, working paper, Munich University Library, Munich Personal RePEc Archive, 59591 (http://mpra.ub.uni-muenchen.de/59591/ ). 13. Subrahmanyan Chandrasekhar, 1961. “Hydrodynamic and Hydromagnetic Stability”, Clarendon Press, Oxford, 1961. 14. Henri Bernard, 1900. “Les Tourbillions Cellulaires Dans Une Nappe Liquide”, Rev. Gen. Sci. Pures et Appl. 11, (1900), 1261-1271 & 1309-1328 15. Stephen Hawking, 1988. “A Brief History of Time”, Bantam, New York 16. Steve Keen, 2011. “Debunking Economics: The Naked Emperor Dethroned?” London Zed Books 17. Joseph L. McCauley, 2003. “Thermodynamic Analogies in Economics and Finance: Instability of Markets.” Physica A, 329: 199-212 18. Robert H. Frank & Ben S. Bernanke, 2003. “Principles of Economics”, Irwin McGraw, New York 19. James J. Wayne, 2014. “A Physics Solution to the Hardest Problem in Social Science: Physics Foundation of Permanent World Peace”, working paper, Munich University Library, Munich Personal RePEc Archive, 59634 (http://mpra.ub.uni-muenchen.de/59634/ ). 20. James J. Wayne, 2014. “Fundamental Design Flaws of United States Constitution”, working paper, Munich University Library, Munich Personal RePEc Archive, 59664 (http://mpra.ub.uni-muenchen.de/59664/ ). 21. James J. Wayne, 2014. “Arrow of Time Phenomena in Social Science and Sixteen Global Mega Trends of Human Society”, working paper, Munich University Library, Munich Personal RePEc Archive, 59685 (http://mpra.ub.uni-muenchen.de/59685/ ). 22. Friedrich Hayek, 1944. “The Road to Serfdom”, University of Chicago Press, Chicago 23. Friedrich Hayek, 1952. “The Counter-revolution of Science: Studies on the Abuse of Reason”, Free Press, Glencoe, IL 24. Friedrich Hayek, 1960. “The Constitution of Liberty”, University of Chicago Press, Chicago 25. James J. Wayne, 2014. “Tragedy of Commonly-shared Debts”, working paper, Munich University Library, Munich Personal RePEc Archive, 59712 (http://mpra.ub.uni-muenchen.de/59712/ ). |
| URI: | https://mpra.ub.uni-muenchen.de/id/eprint/59734 |
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