TY - BOOK AU - Cass, David, ed. AU - Shell, Karl, ed. TI - The Hamiltonian approach to dynamic economics T2 - Economic theory, econometrics, and mathematical economics SN - 012163650X U1 - 330.0151 PY - 1976/// CY - New York, N.Y. PB - Academic Press KW - ECONOMIA MATEMATICA KW - PROGRAMACION DINAMICA KW - ECONOMIA DINAMICA N1 - Incluye bibliografía; Essay I. Introduction to Hamiltonian Dynamics in Economics -- Essay II. On Optimal Steady States of N-Sector Growth Models when Utility Is Discounted -- Essay III. The Structure and Stability of Competitive Dynamical Systems -- Essay IV. Saddle Points of Hamiltonian Systems in Convex Lagrange Problems Having a Nonzero Discount Rate -- Essay V. Existence of Solutions to Hamiltonian Dynamical Systems of Optimal Growth -- Essay VI. A Characterization of the Normalized Restricted Profit Function -- Essay VII. Global A Symptotic Stability of Optimal Control Systems with Applications to the Theory of Economic Growth -- Essay VIII. A Growth Property in Concave-Convex Hamiltonian Systems. N2 - The Hamiltonian Approach to Dynamic Economics focuses on the application of the Hamiltonian approach to dynamic economics and attempts to provide some unification of the theory of heterogeneous capital. Emphasis is placed on the stability of long-run steady-state equilibrium in models of heterogeneous capital accumulation. Generalizations of the Samuelson-Scheinkman approach are also given. Moreover, conditions are sought on the geometry of the Hamiltonian function (that is, on static technology) that suffice to preserve under (not necessarily small) perturbation the basic properties of the Hamiltonian dynamical system. Comprised of eight essays, this book begins with an introduction to Hamiltonian dynamics in economics, followed by a discussion on optimal steady states of n-sector growth models when utility is discounted. Optimal growth and decentralized or descriptive growth models in both continuous and discrete time are treated as applications of Hamiltonian dynamics. Theproblem of optimal growth with zero discounting is considered, with emphasis on a steepness condition on the Hamiltonian function. The general problem of decentralized growth with instantaneously adjusted expectations about price changes is also analyzed, along with the global asymptotic stability of optimal control systems with applications to the theory of economic growth. This monograph will be of value to mathematicians and economists ER -