Probabilistic Economic Theory
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Ten years ago I published the small book “Physical Modeling of Economic Systems: The Classical and Quantum Economies” [4]. It was my first attempt to develop an economic theory ab initio, and constructed an axiomatic basis of the theory from a limited set of first principles. The basic hallmarks of the theory that made it probabilistic and quantitative are as follows.
First. A careful, step-by-step development of the market agent-based physical economic models, where market agents play a main role in market phenomena.
Second. The complete integration of uncertainty and probability perspectives throughout the theory.
Third. A unifying, analytic framework that uses equations of motion in the formal price economic space to describe economy evolution in time.
For the last ten years, I have continually strived to advance the theory and to make it more clear and justified. In particular, for this purpose I developed the special mathematical apparatus, which is referred to in the book as probability economics. Still, I considerably advanced the theory by means of taking into consideration quantities of market goods as independent variables along with their prices. Due to this innovation, the economic price space was expanded up to the economic price-quantity space. During this time I also developed mathematical apparatus for describing the many-good, many-agent market economies. Despite the fact that achievements and expansions of theory mentioned above are very substantial, my new book carries the title “Probabilistic Economic Theory” and is, in essence, the second extended edition of my first book, in which I presented only very beginnings of the method of the agent-based physical modeling of economic systems and the basics of probabilistic economic theory.
In this book, the fundamental concepts of economic theory are exposed to critical rethinking for the purpose of answering such eternal questions of economic theory such as those regarding supply and demand, as well as market price and market force, market process and market equilibrium, invisible hand of market etc. I look at how all these concepts should be incorporated into economic theory and conveyed quantitatively in the same language in which physicists, chemists and other professionals in the so-called natural sciences present their theories, i.e., in the language of mathematics. In the book I presented maximally simplified models, in which only the most important special features and details of work of markets are described by means of maximally simplified mathematical apparatus. Let us stress here that the main aim of such basic models is only to reveal the essence of the studied phenomenon, not more. After this is accomplished, we can then develop the models further, including other, more sophisticated effects within them. This is the only true way of modeling science. Therefore, Chapters I–VIII are easily understood by first-year economics students. But the subsequent Chapters IX and X require an existing, thorough knowledge of physics, somewhere around the level of upper year physics courses. They only need have the slightest grasp of economic phenomena and laws of human action in the market economy, obtained, for example, in the course of reading the first chapters of this book. Generally, this book can be considered as an introduction into economics, written for physicists in standard physics terminology. The book, by the way, was initially taught as a set of lectures on economics for physics department students. If, after reading this book, a physics student has the impression that the presented physical economic models are quite simple and understandable, then I have solved a personal challenge. Indeed, I feel that the more complex the studied systems are and the phenomena within them, the simpler the model must be, taking into consideration only those effects which are of prime importance for describing the studied phenomena.
The book, as noted above, is the collection of lectures, each of which is called to answer one or several questions given above. The genre of lecture (or essay) is selected for the purpose of concentrating on the compact, clear presentation of physical economics. In it I have used a whole series of new ideas, concepts and notions for the economic theory, which arise from theoretical physics. I believe I have succeeded in avoiding the necessity of making numerous surveys and references, the like of which can be found in most other textbooks on economics and economic history. Therefore, references in the book are made only to those sources which were actually used for the fulfillment of studies, the development of models, and writing of the book. To provide convenience to students in lectures, figures and fragments of the text are reproduced several times in some chapters.
It should be emphasized once more that I borrowed ideas, concepts and notions from physics, many of which are completely consistent with the discoveries of the classical economic theories of the 19th century, the first of which being the subjective theory of value. This concerns first and foremost such important milestones in the development of classical economic theory as [5]:
1. Regularity in the sequence of market economic phenomena.
2. Exclusive and dominant roles of market agents in the market phenomena.
3. Uncertainty of the future and the probabilistic nature of all market agents’ decisions.
4. Social cooperation of market agents etc.
All these aspects of human economic activities have an exceptionally important effect on market processes and determine the course of economic development. But any formal methods of providing an adequate formal description of these economic phenomena and processes at a strict mathematical level in economic theory, until now, have been absent. Necessity and expediency of borrowing by economics from physics is substantiated by the fact that theoretical physics already developed sophisticated mathematical methods to incorporate analogous concepts into formal physical models. The method of equations of motion was first, and uses systems of differential equations of the 1st and 2nd orders, but economic theory still did not.
I would like to stress here that this creative process of the transfer of the formal methods of physics into classical economic theory presents the main point of the concept of the agent-based physical modeling of the economic systems and physical economics as a whole. One can say that, in essence, physical economics is first and foremost the mathematical apparatus of classical economic theory at the contemporary level of its development. This mathematical apparatus is borrowed from theoretical physics and has therefore practically nothing to do with the mathematical apparatus of neoclassical economics.
In order not to overload the text of the book by the descriptions of the known concepts of classical economic theory upon which I rested in this investigation, I make use of complete quotations from the fundamental monograph of Ludwig von Mises [5] as epigraphs to each part and chapter of the book, with two exceptions. This method allowed me to avoid the mixing of completely different styles of the presentation in the book, which could hinder the perception of the text by readers. This is very important for me, since I have attempted to not to disappoint the readers, and to convince them of how it is fruitful to make use of achievements in theoretical physics for the development of economics. The point is not in the book’s detail, but rather in its broader concept of agent-based physical modeling of economic systems, which, in my view, has enormous potential. Here lies, I think, a new and enormous field for investigation, in which an abundant harvest will be gathered for many decades yet to come. I hope that the readers will obtain a certain benefit from the acquaintance with this new physical economic perspective for economic theory.
References
1. Rosario N. Mantegna, Eugene H. Stanley. An Introduction to Econophysics: Correlations and Complexity in Finance. Cambridge University Press, 1999.
2. Peter Richmond, J"urgen Mimkes, and Stefan Hutzler. Econophysics and Physical Economics. Oxford University Press, 2013.
3. D.S. Chernavsky, N.I. Starkov, A.V. Shcherbakov. On some problems of physical economics. UFN, Vol. 172, N 9, pp. 1046–1066, 2002.
4. A.V. Kondratenko. Physical Modeling of Economic Systems. Classical and Quantum Economies. Nauka (Science): Novosibirsk, 2005.
5. Ludwig von Mises. Human Action. A Treatise on Economics. Yale University, 1949.
Anatoly Kondratenko
Novosibirsk, 2015
INTRODUCTION. Probabilistic Economic Theory
“The market economy is the social system of the division of labor under private ownership of the means of production. Everybody acts on his own behalf; but everybody’s actions aim at the satisfaction of other people’s needs as well as at the satisfaction of his own. Everybody in acting serves his fellow citizens. Everybody, on the other hand, is served by his fellow citizens. Everybody is both a means and an end in himself, an ultimate end for himself and a means to other people in their endeavors to attain their own ends.
This system is steered by the market. The market directs the individual's activities into those channels in which he best serves the wants of his fellow men. There is in the operation of the market no compulsion and coercion. The state, the social apparatus of coercion and compulsion, does not interfere with the market and with the citizens’ activities directed by the market. It employs its power to beat people into submission solely for the prevention of actions destructive to the preservation and the smooth operation of the market economy. It protects the individual's life, health, and property against violent or fraudulent aggression on the part of domestic gangsters and external foes. Thus the state creates and preserves the environment in which the market economy can safely operate… Each man is free; nobody is subject to a despot. Of his own accord the individual integrates himself into the cooperative system. The market directs him and reveals to him in what way he can best promote his own welfare as well as that of other people. The market is supreme. The market alone puts the whole social system in order and provides it with sense and meaning”.