Econophysics and Physical Economics | Agenda Bookshop Skip to content
Online orders placed from 19/12 onward will not arrive in time for Christmas.
Online orders placed from 19/12 onward will not arrive in time for Christmas.
A01=J^Durgen Mimkes
A01=Jurgen Mimkes
A01=Peter Richmond
A01=Stefan Hutzler
Age Group_Uncategorized
Age Group_Uncategorized
Author_J^Durgen Mimkes
Author_Jurgen Mimkes
Author_Peter Richmond
Author_Stefan Hutzler
automatic-update
Category1=Non-Fiction
Category=KCH
Category=KFF
Category=PHFC
Category=PHS
COP=United Kingdom
Delivery_Delivery within 10-20 working days
Language_English
PA=Available
Price_€50 to €100
PS=Active
softlaunch

Econophysics and Physical Economics

An understanding of the behaviour of financial assets and the evolution of economies has never been as important as today. This book looks at these complex systems from the perspective of the physicist. So called 'econophysics' and its application to finance has made great strides in recent years. Less emphasis has been placed on the broader subject of macroeconomics and many economics students are still taught traditional neo-classical economics. The reader is given a general primer in statistical physics, probability theory, and use of correlation functions. Much of the mathematics that is developed is frequently no longer included in undergraduate physics courses. The statistical physics of Boltzmann and Gibbs is one of the oldest disciplines within physics and it can be argued that it was first applied to ensembles of molecules as opposed to being applied to social agents only by way of historical accident. The authors argue by analogy that the theory can be applied directly to economic systems comprising assemblies of interacting agents. The necessary tools and mathematics are developed in a clear and concise manner. The body of work, now termed econophysics, is then developed. The authors show where traditional methods break down and show how the probability distributions and correlation functions can be properly understood using high frequency data. Recent work by the physics community on risk and market crashes are discussed together with new work on betting markets as well as studies of speculative peaks that occur in housing markets. The second half of the book continues the empirical approach showing how by analogy with thermodynamics, a self-consistent attack can be made on macroeconomics. This leads naturally to economic production functions being equated to entropy functions - a new concept for economists. Issues relating to non-equilibrium naturally arise during the development and application of this approach to economics. These are discussed in the context of superstatistics and adiabatic processes. As a result it does seem ultimately possible to reconcile the approach with non-equilibrium systems, and the ideas are applied to study income and wealth distributions, which with their power law distribution functions have puzzled many researchers ever since Pareto discovered them over 100 years ago. This book takes a pedagogical approach to these topics and is aimed at final year undergraduate and beginning gradaute or post-graduate students in physics, economics, and business. However, the experienced researcher and quant should also find much of interest. See more
Current price €85.49
Original price €94.99
Save 10%
A01=J^Durgen MimkesA01=Jurgen MimkesA01=Peter RichmondA01=Stefan HutzlerAge Group_UncategorizedAuthor_J^Durgen MimkesAuthor_Jurgen MimkesAuthor_Peter RichmondAuthor_Stefan Hutzlerautomatic-updateCategory1=Non-FictionCategory=KCHCategory=KFFCategory=PHFCCategory=PHSCOP=United KingdomDelivery_Delivery within 10-20 working daysLanguage_EnglishPA=AvailablePrice_€50 to €100PS=Activesoftlaunch
Delivery/Collection within 10-20 working days
Product Details
  • Weight: 720g
  • Dimensions: 180 x 253mm
  • Publication Date: 05 Sep 2013
  • Publisher: Oxford University Press
  • Publication City/Country: United Kingdom
  • Language: English
  • ISBN13: 9780199674701

About J^Durgen MimkesJurgen MimkesPeter RichmondStefan Hutzler

Peter Richmond studied physics at Queen Mary College University of London. His career included periods in academia including the Institute of Advanced Studies ANU Canberra and the Physics Laboratories University of Kent. Most recently in particular during the period spanning the volatile financial era from 1997-2007 and the great housing crash he was with the School of Physics Trinity College Dublin. During this period he introduced new research activity concerned with econophysics and gave a course on the subject to final year undergraduates. From 2003-2012 he was chair of two major concerted actions spanning 26 countries across Europe and sponsored by COST; 'Physics of Risk' (2003-2007) and 'Physics of Cooperation and Conflict' (2008-2012). He holds a DSc from the University of London and is a Fellow of the UK Institute of Physics. His publications cover aspects of condensed matter physics colloids econophysics and sociophysics. Jürgen Mimkes studied physics at Georgia Augusta University Göttingen and the Free University Berlin from 1959 to 1967. After a postdoctoral position at the University of Missouri Rolla USA he was Assistant Professor in solid-state thermodynamics at the Technical Universities in both Berlin and Clausthal. From 1977 to retirement in 2004 he was Professor of Physics at the University of Paderborn. He has held visiting appointments in College Park Maryland and Chuo University Tokyo. Stefan Hutzler studied physics at the Universität Regensburg Germany and the University of Reading UK. In 1997 he obtained his PhD from Trinity College Dublin Ireland where he is now Associate Professor in the School of Physics. He is also a Fellow of the College. His research interests are the physics of foams packing problems and complex systems. He has co-authored over 120 publications in these areas including 'The Physics of Foams' (together with Prof. Denis Weaire) published by Oxford University Press in 1999.

We use cookies to ensure that we give you the best experience on our website. If you continue we'll assume that you are understand this. Learn more
Accept