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This authoritative and stimulating book represents a fundamental critique of the aggregate production function, a concept widely used in macroeconomics.
The productivity slowdown of the 1970s and 1980s and the resumption of productivity growth in the 1990s have provoked controversy among policymakers and researchers. Economists have been forced to reexamine fundamental questions of measurement technique. Some researchers argue that econometric approaches to productivity measurement usefully address shortcomings of the dominant index number techniques while others maintain that current productivity statistics underreport damage to the environment. In this book, the contributors propose innovative approaches to these issues. The result is a state-of-the-art exposition of contemporary productivity analysis. Charles R. Hulten is professor of economics at the University of Maryland. He has been a senior research associate at the Urban Institute and is chair of the Conference on Research in Income and Wealth of the National Bureau of Economic Research. Michael Harper is chief of the Division of Productivity Research at the Bureau of Labor Statistics. Edwin R. Dean, formerly associate commissioner for Productivity and Technology at the Bureau of Labor Statistics, is adjunct professor of economics at The George Washington University.
Tying America's past to the economic policies of today and beyond, HISTORY OF THE AMERICAN ECONOMY, 11e, INTERNATIONAL EDITION presents events chronologically for easy understanding. Get a firm foundation in the evolution of the American economy with this ever-popular classic.
Productivity, Technology and Economic Growth presents a selection of recent research advances on long term economic growth. While the contributions stem from both economic history, macro- and microeconomics and the economics of innovation, all papers depart from a common viewpoint: the key factor behind long term growth is productivity, and the latter is primarily driven by technological change. Most contributions show implicitly or explicitly that technological change is at least partly dependent on growth itself. Furthermore, technology appears to interact strongly with investment in physical and human capital as well as with changes in historical, political and institutional settings. Together these papers are an up-to-date account of the remarkable convergence in theoretical and empirical work on productivity and growth over the past decades. The first part deals with the characteristics of growth regimes over longer periods, ranging from 20 years to two centuries. The next four chapters study the determinants of productivity growth and, in some cases, productivity slowdown during the last quarter of the twentieth century. The final five chapters focus on the role of technology and innovation as the key determinants of growth. Productivity, Technology and Economic Growth is, therefore, a welcome collection for academic scholars and graduate students in economics, history and related social sciences as well as for policy makers.
Our answer: Not so well. We reached that conclusion after reviewing recent research on the role of technology as a source of economic fluctuations. The bulk of the evidence suggests a limited role for aggregate technology shocks, pointing instead to demand factors as the main force behind the strong positive comovement between output and labor input measures.
This book is a self-contained treatment of all the mathematics needed by undergraduate and masters-level students of economics, econometrics and finance. Building up gently from a very low level, the authors provide a clear, systematic coverage of calculus and matrix algebra. The second half of the book gives a thorough account of probability, dynamics and static and dynamic optimisation. The last four chapters are an accessible introduction to the rigorous mathematical analysis used in graduate-level economics. The emphasis throughout is on intuitive argument and problem-solving. All methods are illustrated by examples, exercises and problems selected from central areas of modern economic analysis. The book's careful arrangement in short chapters enables it to be used in a variety of course formats for students with or without prior knowledge of calculus, for reference and for self-study. The preface to the new edition and full table of contents are available from https://www.manchesterhive.com/page/mathematics-for-economists-supplementary-materials
Most discussions of U.S. economic competitiveness focus on the creation of new technologies, but the abundant evidence presented in this timely book indicates that the key factor underpinning U.S. competitiveness is not the development of technology itself, but the factors that influence the commercialization of technology. The importance of effective management and performance in the commercialization of new technologies reflects today's changing environment. The post-war decades of undisputed U.S. scientific and technological hegemony have been replaced by a period in which U.S. firms are challenged by foreign competitors in some fields, and struggling to regain their former positions in others. Although the U.S. scientific research establishment arguably has lost little if any of its post-war preeminence, the same cannot be said with respect to the performance of U.S. firms as developers, adapters, and managers of new technologies, largely because government policies have not been conducive to successful commercialization of technology. As we enter the last decade of the twentieth century, economic policy and performance are being linked more and more closely to technology-related issues. Technology commercialization is now recognized as critical to this linkage, and this book constitutes a state-of-the-art analysis of this vital but often overlooked aspect of technological innovation. The sixteen papers in this volume contribute to three important tasks. First, they draw on new developments in theoretical and empirical analysis to integrate the macro-and microeconomic dimensions of technological innovation and commercialization. Second, they extend and enrich the macroeconomic analysis of growth, capital formation, and international economic interactions to highlight the influences of macroeconomic variables on technology commercialization. Technology and capital investment are shown to be complementary inputs to the growth process, which means that favorable investment conditions are prerequisites for higher growth rates. Third, they also extend and enrich the microeconomic analysis of technological innovation and commercialization, in the process providing guidance for managers seeking to improve performance in both of the areas.
Professor Green discusses the definition of consistent aggregation and the problem of grouping variables in a single equation; he deals with the aggregation of equations and the probable errors; and summarizes, with reference to the text, the considerations involved in selecting an appropriate form of aggregation. The author's survey presents a well-balanced overview and analysis of aggregation, and makes readily accessible for the first time much material otherwise difficult to obtain. Originally published in 1964. The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.