Growth of the electric industry Electric generating stations and the associated transmission and distribu tion systems are high ticket items as are the costs of fuel and of operating the industry. The country presently spends about $150 billion annually on electricity. It is the country's largest industry, with assets of over $400 billion (Edison Electric Institute Statistical Year book, 1985). The country's electric generating capacity and the end use of electricity grew exponentially for about 70 years, starting at the beginning of the century, with a doubling period of roughly seven years (see figurelO-1). Over much of this period electric utility planning could simply consist of laying a ruler on such a logarithmic plot. The utilities could then, know ing plant construction times, write out purchase orders. Improvements in power generating technology allowed electric rates to decline, which permitted the market to expand to accommodate the additional supply. The prospective growth was a heady vision and provided much of the stimulus for the supporters of nuclear power. An example of such extra polation made in 1971 is shown in figure 10-2 (The U. S. Energy Problem, 1971). Another forecast (Electrical Power Supply and Demand Forecasts for the United States Through 2050, 1972) projected an installed capacity of 1. 5 million MV(e) in the year 2000, of which 45 percent was to be nuclear. For the year 2050 the installed capacity would have risen to 5. 2 million MW(e), of which 88 percent was to be nuclear."

This book presents Martin Shubik's important contribution to the development of game theory, and shows how game theory methods can be used in the study of prices, money and financial institutions. After introducing the reader to his career and the influences which developed his research, Professor Martin Shubik addresses the price system considering issues such as competitive equilibrium, economic exchange and production. He explores the competitive price system and the emergence of money and financial systems to develop a theory of monetary and financial institutions. Specifically, he examines the role of money in the economy using both cooperative and non-cooperative solutions in game theory. Throughout the book Martin Shubik stresses that the value of games, which can be both played and analysed, provides an important link between theory and process and institutional studies. This book will be welcomed by economists, especially those interested in game theory, as well as by money and banking professionals.

This book presents the most important published articles of Martin Shubik who has made a path-breaking contribution to game theory and political economy. The volume shows how game theory can be used to explore fundamental problems in economics, political science and operations research.The book opens with an introduction to the career of Martin Shubik and the influences which have shaped his research. In this, and the chapters which follow, Martin Shubik stresses the importance of formulative models as playable games and the treatment of information to describe decision making among individuals, using examples from industrial organization. He demonstrates that games are a fruitful way to extend our knowledge of competition among the few. In addition, he considers the importance of gaming in economics and business suggesting that experimental games can be used to illustrate problems and principles in multi-person decision making. This book will be welcomed by economists, game theorists, political scientists, and operations researchers.

Using simple but rigorously defined mathematical models, Thomas Quint and Martin Shubik explore monetary control in a simple exchange economy. Examining how money enters, circulates, and exits an economy, they consider the nature of trading systems and the role of government authority in the exchange of consumer goods for storable money; exchanges made with durable currency, such as gold; fiat currency, which is flexible but has no consumption value; conditions under which borrowers can declare bankruptcy; and the distinctions between individuals who lend their own money, and financiers, who lend others'.

Growth of the electric industry Electric generating stations and the associated transmission and distribu tion systems are high ticket items as are the costs of fuel and of operating the industry. The country presently spends about $150 billion annually on electricity. It is the country's largest industry, with assets of over $400 billion (Edison Electric Institute Statistical Year book, 1985). The country's electric generating capacity and the end use of electricity grew exponentially for about 70 years, starting at the beginning of the century, with a doubling period of roughly seven years (see figurelO-1). Over much of this period electric utility planning could simply consist of laying a ruler on such a logarithmic plot. The utilities could then, know ing plant construction times, write out purchase orders. Improvements in power generating technology allowed electric rates to decline, which permitted the market to expand to accommodate the additional supply. The prospective growth was a heady vision and provided much of the stimulus for the supporters of nuclear power. An example of such extra polation made in 1971 is shown in figure 10-2 (The U. S. Energy Problem, 1971). Another forecast (Electrical Power Supply and Demand Forecasts for the United States Through 2050, 1972) projected an installed capacity of 1. 5 million MV(e) in the year 2000, of which 45 percent was to be nuclear. For the year 2050 the installed capacity would have risen to 5. 2 million MW(e), of which 88 percent was to be nuclear."

Professor Morgenstern's deep interests in economic time series and problems of measurement are represented by path-breaking articles devoted to the application of modern statistical analysis to temporal economic data. Originally published in 1967. 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.

Professor Morgenstern's deep interests in economic time series and problems of measurement are represented by path-breaking articles devoted to the application of modern statistical analysis to temporal economic data. Originally published in 1967. 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.