Once upon a time students of mathematics and students of science or engineering took the same courses in mathematical analysis beyond calculus. Now it is common to separate" advanced mathematics for science and engi neering" from what might be called "advanced mathematical analysis for mathematicians." It seems to me both useful and timely to attempt a reconciliation. The separation between kinds of courses has unhealthy effects. Mathe matics students reverse the historical development of analysis, learning the unifying abstractions first and the examples later (if ever). Science students learn the examples as taught generations ago, missing modern insights. A choice between encountering Fourier series as a minor instance of the repre sentation theory of Banach algebras, and encountering Fourier series in isolation and developed in an ad hoc manner, is no choice at all. It is easy to recognize these problems, but less easy to counter the legiti mate pressures which have led to a separation. Modern mathematics has broadened our perspectives by abstraction and bold generalization, while developing techniques which can treat classical theories in a definitive way. On the other hand, the applier of mathematics has continued to need a variety of definite tools and has not had the time to acquire the broadest and most definitive grasp-to learn necessary and sufficient conditions when simple sufficient conditions will serve, or to learn the general framework encompass ing different examples."

Neural computing is one of the most interesting and rapidly growing areas of research, attracting researchers from a wide variety of scientific disciplines. Starting from the basics, Neural Computing covers all the major approaches, putting each in perspective in terms of their capabilities, advantages, and disadvantages. The book also highlights the applications of each approach and explores the relationships among models developed and between the brain and its function. A comprehensive and comprehensible introduction to the subject, this book is ideal for undergraduates in computer science, physicists, communications engineers, workers involved in artificial intelligence, biologists, psychologists, and physiologists.

The traditional South Indian village pictures the entire universe as an entity in which all living things and human beings play a necessary and effective role. The stability of this worldview is based on a close relationship among human beings, grain crops, and cattle, which has permitted the continuous exploitation of agricultural lands over several centuries. Taken as a whole, the life of South Indian villagers represents a subtle and complicated adaptation to complex and variable environmental circumstances. It now faces the challenge of adjusting to modernization.After a fascinating description of the traditional South Indian worldview, Alan R. Beals describes the settlement patterns and social structures that characterize village life, the agricultural technology and ecology, and the techniques of population regulation that have traditionally operated to maintain appropriate man-to-land ratios. He then explains the relationships among villages, including marriage and economic exchanges, and the omnipresent influence of hierarchies of caste and social ranking.Over the past 2,000 years, South Indian civilization has undergone constant change and modification. Empires have risen and fallen, famine and plague have swept the land, and cities have been built and forgotten. But through all these years of change, the traditional South Indian village has maintained its basic character, adjusting to a variety of environments and countless conquests, yet always adhering to a single basic pattern of life. Village Life in South India, originally published in 1974, provides the reader not only with a still-valid description of a particular and distinctive way of life, but also with an explanation of how life is explained in ecological theory.

The traditional South Indian village pictures the entire universe as an entity in which all living things and human beings play a necessary and effective role. The stability of this worldview is based on a close relationship among human beings, grain crops, and cattle, which has permitted the continuous exploitation of agricultural lands over several centuries. Taken as a whole, the life of South Indian villagers represents a subtle and complicated adaptation to complex and variable environmental circumstances. It now faces the challenge of adjusting to modernization.

After a fascinating description of the traditional South Indian worldview, Alan R. Beals describes the settlement patterns and social structures that characterize village life, the agricultural technology and ecology, and the techniques of population regulation that have traditionally operated to maintain appropriate man-to-land ratios. He then explains the relationships among villages, including marriage and economic exchanges, and the omnipresent influence of hierarchies of caste and social ranking.

Over the past 2,000 years, South Indian civilization has undergone constant change and modification. Empires have risen and fallen, famine and plague have swept the land, and cities have been built and forgotten. But through all these years of change, the traditional South Indian village has maintained its basic character, adjusting to a variety of environments and countless conquests, yet always adhering to a single basic pattern of life. Village Life in South India, originally published in 1974, provides the reader not only with a still-valid description of a particular and distinctive way of life, but also with an explanation of how life is explained in ecological theory.

Neural computing is one of the most interesting and rapidly growing areas of research, attracting researchers from a wide variety of scientific disciplines. Starting from the basics, Neural Computing covers all the major approaches, putting each in perspective in terms of their capabilities, advantages, and disadvantages. The book also highlights the applications of each approach and explores the relationships among models developed and between the brain and its function. A comprehensive and comprehensible introduction to the subject, this book is ideal for undergraduates in computer science, physicists, communications engineers, workers involved in artificial intelligence, biologists, psychologists, and physiologists.

Obesity is one of the most important contributing factors to disease throughout the world and is an area of great current interest among researchers and clinicians. The genetics of common obesity is complex, and an important thread through this labyrinth is the study of genetic syndromes in which obesity is a major component. By examining the genetic mechanisms of obesity in these syndromes, the authors will shed new light on the genetics of common obesity. This is the first book on this important and exciting new area and addreses both the molecular and clinical features of the obesity syndromes, providing hard-core information for researchers and practical guidelines for clinicians caring for obese patients.
The book is divided into three sections: the first covers approaches for assessing and investigating the obese individual; the second describes nondysmorphic, monogenic forms of obesity; and the third documents key, multisystem obesity syndromes with various genetic etiologies. It is as much a reference book as it is a manual and will appeal to clinical geneticists, obesity researchers, endocrinologists, nutritionists, and medical biologists.

This study of ten fateful decisions made on Indochina between 1961-75 highlights the ascent of the civilian militarists and of strategy over diplomacy in United States policymaking and reveals the inexorably interlinked and escalating character of the decisions and the central purpose of American presidents: not to have to face the expected domestic political consequences of defeat in Indochina. As a result, we were led into a prolonged stalemate in which "acting" and the management of programs became a more important preoccupation than thinking about our purposes and values, in which analysis become wholly subjective and therefore defective, and in which decision-making occurred in a closed system which did not allow for divergent inputs.

Once upon a time students of mathematics and students of science or engineering took the same courses in mathematical analysis beyond calculus. Now it is common to separate" advanced mathematics for science and engi neering" from what might be called "advanced mathematical analysis for mathematicians." It seems to me both useful and timely to attempt a reconciliation. The separation between kinds of courses has unhealthy effects. Mathe matics students reverse the historical development of analysis, learning the unifying abstractions first and the examples later (if ever). Science students learn the examples as taught generations ago, missing modern insights. A choice between encountering Fourier series as a minor instance of the repre sentation theory of Banach algebras, and encountering Fourier series in isolation and developed in an ad hoc manner, is no choice at all. It is easy to recognize these problems, but less easy to counter the legiti mate pressures which have led to a separation. Modern mathematics has broadened our perspectives by abstraction and bold generalization, while developing techniques which can treat classical theories in a definitive way. On the other hand, the applier of mathematics has continued to need a variety of definite tools and has not had the time to acquire the broadest and most definitive grasp-to learn necessary and sufficient conditions when simple sufficient conditions will serve, or to learn the general framework encompass ing different examples."

The Making of Modern Law: Foreign, Comparative and International Law, 1600-1926, brings together foreign, comparative, and international titles in a single resource. Its International Law component features works of some of the great legal theorists, including Gentili, Grotius, Selden, Zouche, Pufendorf, Bijnkershoek, Wolff, Vattel, Martens, Mackintosh, Wheaton, among others. The materials in this archive are drawn from three world-class American law libraries: the Yale Law Library, the George Washington University Law Library, and the Columbia Law Library.Now for the first time, these high-quality digital scans of original works are available via print-on-demand, making them readily accessible to libraries, students, independent scholars, and readers of all ages.+++++++++++++++The below data was compiled from various identification fields in the bibliographic record of this title. This data is provided as an additional tool in helping to insure edition identification: +++++++++++++++Harvard Law School LibraryLP2H010820019210101The Making of Modern Law: Primary Sources, Part II1921(1-4), 298 p. 8voUnited States

Can a man be an effective pastor using the Bible as his total guide?

Starting with fewer than 100 members, pastor Beal built a congregation of over 3,000. How? Foremost, he let the Bible be his guide, surely evidence that the Bible is an up-to-date book. Secondly, he had the ministry of encouragement, just as the Biblical Barnabas. Through being an encourager he led over 200 young people into full-time Christian service. As an encourager he gained the trust of many other pastors, who looked to him for leadership.

Most importantly, he wanted everyone to understand the truth of salvation by grace through faith alone in Christ alone. A rough estimate of the number of people he led to faith in Christ is 5,000, approximated by the number whom he baptized as adult believers.

Pastor Beal was a major founder of the Conservative Baptist denomination, a surprising role he never chose for himself. Some of the historical background of events that split the American Baptist Convention have never before been told.