In his essay, G. M. Tamás (*1948), Hungarian philosopher as well as former and actual dissident, examines the character of “innocent power.” Power is per se destructive, and its effects are visible in
The 'German Question' dominated much of modern European history. In 1945, Germany was defeated and conquered. Yet, the Second World War did not destroy the foundations of her economic power. Dr Tamás Vonyó revisits Germany's remarkable post-war revival, tracing its roots not to liberal economic reforms and the Marshall Plan, but to the legacies of the war that endowed Germany with an enhanced industrial base and an enlarged labour force. He also shows that Germany's liberal market economy was in reality an economy of regulated markets, controlled prices and extensive state intervention. Using quantitative analysis and drawing on a rich historiography that has remained, in large part, unknown outside of Germany, this book reassesses the role of economic policy and the importance of wartime legacies to explain the German growth miracle after 1945 and the sharply contrasting experiences of East and West Germany.
Ever since the concepts of Galois groups in algebra and fundamental groups in topology emerged during the nineteenth century, mathematicians have known of the strong analogies between the two concepts. This book presents the connection starting at an elementary level, showing how the judicious use of algebraic geometry gives access to the powerful interplay between algebra and topology that underpins much modern research in geometry and number theory. Assuming as little technical background as possible, the book starts with basic algebraic and topological concepts, but already presented from the modern viewpoint advocated by Grothendieck. This enables a systematic yet accessible development of the theories of fundamental groups of algebraic curves, fundamental groups of schemes, and Tannakian fundamental groups. The connection between fundamental groups and linear differential equations is also developed at increasing levels of generality. Key applications and recent results, for examp
Humans live in large and extensive societies and spend much of their time interacting socially. Likewise, most other animals also interact socially. Social behaviour is of constant fascination to biologists and psychologists of many disciplines, from behavioural ecology to comparative biology and sociobiology. The two major approaches used to study social behaviour involve either the mechanism of behaviour - where it has come from and how it has evolved, or the function of the behaviour studied. With guest articles from leaders in the field, theoretical foundations along with recent advances are presented to give a truly multidisciplinary overview of social behaviour, for advanced undergraduate and graduate students. Topics include aggression, communication, group living, sexual behaviour and co-operative breeding. With examples ranging from bacteria to social mammals and humans, a variety of research tools are used, including candidate gene approaches, quantitative genetics, neuro-end
The 'German Question' dominated much of modern European history. In 1945, Germany was defeated and conquered. Yet, the Second World War did not destroy the foundations of her economic power. Dr Tamás Vonyó revisits Germany's remarkable post-war revival, tracing its roots not to liberal economic reforms and the Marshall Plan, but to the legacies of the war that endowed Germany with an enhanced industrial base and an enlarged labour force. He also shows that Germany's liberal market economy was in reality an economy of regulated markets, controlled prices and extensive state intervention. Using quantitative analysis and drawing on a rich historiography that has remained, in large part, unknown outside of Germany, this book reassesses the role of economic policy and the importance of wartime legacies to explain the German growth miracle after 1945 and the sharply contrasting experiences of East and West Germany.
In the past few decades we have come to understand that even motions in simple systems can have complex and surprising properties. Chaotic Dynamics provides a clear introduction to these chaotic phenomena, based on geometrical interpretations and simple arguments, without the need for prior in-depth scientific and mathematical knowledge. Richly illustrated throughout, examples are taken from classical mechanics whose elementary laws are familiar to the reader. In order to emphasize the general features of chaos, the most important relations are also given in simple mathematical forms, independent of any mechanical interpretation. A broad range of potential applications are presented, ranging from everyday phenomena through engineering and environmental problems to astronomical aspects. Chaos occurs in a variety of scientific disciplines, and proves to be the rule, not the exception. This book is primarily intended for undergraduate students in science, engineering, and mathematics.