Wunder Des Rhythmus und Schönheit Des Raumes : [exhibition at the Städtische Galerie Im Lenbachaus in Munich, from 23 April to 29 June 1997, Schirn Kunsthalle, Frankfurt, from 12 September to 2 November 1997]
Wunder Des Rhythmus und Schönheit Des Raumes : [exhibition at the Städtische Galerie Im Lenbachaus in Munich, from 23 April to 29 June 1997, Schirn Kunsthalle, Frankfurt, from 12 September to 2 November 1997]
Hans Hofmann (1880-1966) is one of the most important figures of postwar American art, for both his own abstract paintings and his influence as the legendary teacher of generations of artists in Germany, New York, and Provincetown. His presence in New York, a link to Wassily Kandinsky, the Cubists, and Fauves, catalyzed the movement ultimately known as Abstract Expressionism, whose influence still pervades the aesthetic categories and practices of art today. This volume features essays on Hofmann's life and work by Helmut Friedel and Tina Dickey; excerpts from Hofmann's own statements; full documentation of his career (including chronology, selected bibliography, and comprehensive list of solo and group exhibitions); and thirty-two large colorplates of works from 1942 to 1965 by this supreme colorist, his finest paintings from European and American collections. They richly represent his unique painting style, which conveys a deeply personal experience of color that has lost none of its power to fascinate the viewer.
This book offers a comprehensive survey of basic elements of nuclear dynamics at low energies and discusses similarities to mesoscopic systems. It addresses systems with finite excitations of their internal degrees of freedom, so that their collective motion exhibits features typical for transport processes in small and isolated systems. The importance of quantum aspects is examined with respect to both the microscopic damping mechanism and the nature of the transport equations. The latter must account for the fact that the collective motion is self-sustained. This implies highly nonlinear couplings between internal and collective degrees of freedom —- different to assumptions made in treatments known in the literature. A critical discussion of the use of thermal concepts is presented. The book can be considered self-contained. It presents existing models, theories and theoretical tools, both from nuclear physics and other fields, which are relevant to an understanding of the observed physical phenomena.
Wunder Des Rhythmus und Schönheit Des Raumes : [exhibition at the Städtische Galerie Im Lenbachaus in Munich, from 23 April to 29 June 1997, Schirn Kunsthalle, Frankfurt, from 12 September to 2 November 1997]
Wunder Des Rhythmus und Schönheit Des Raumes : [exhibition at the Städtische Galerie Im Lenbachaus in Munich, from 23 April to 29 June 1997, Schirn Kunsthalle, Frankfurt, from 12 September to 2 November 1997]
Hans Hofmann (1880-1966) is one of the most important figures of postwar American art, for both his own abstract paintings and his influence as the legendary teacher of generations of artists in Germany, New York, and Provincetown. His presence in New York, a link to Wassily Kandinsky, the Cubists, and Fauves, catalyzed the movement ultimately known as Abstract Expressionism, whose influence still pervades the aesthetic categories and practices of art today. This volume features essays on Hofmann's life and work by Helmut Friedel and Tina Dickey; excerpts from Hofmann's own statements; full documentation of his career (including chronology, selected bibliography, and comprehensive list of solo and group exhibitions); and thirty-two large colorplates of works from 1942 to 1965 by this supreme colorist, his finest paintings from European and American collections. They richly represent his unique painting style, which conveys a deeply personal experience of color that has lost none of its power to fascinate the viewer.
Food products have always been designed, but usually not consciously. Even when design has been part of the process, it has often been restricted to considerations of packaging, logos, fonts and colors. But now design is impacting more dramatically on the complex web that makes up our food supply, and beginning to make it better. Ways of thinking about design have broad applications and are becoming central to how companies compete. To succeed, food designers need to understand consumers and envision what they want, and to use technology and systems to show they can deliver what has been envisioned. They also need to understand organizations in order to make innovation happen in a corporation. The authors of this book argue that design has been grossly underestimated in the food industry. The role of design in relation to technology of every kind (materials, mechanics, ingredients, conversion, transformation, etc.) is described, discussed, challenged and put into proper perspective. The authors deftly analyze and synthesize complex concepts, inspiring new ideas and practices through real-world examples. The second part of the book emphasizes the role of innovation and how the elements described and discussed in the first parts (design, technology, business) must join forces in order to drive valuable innovation in complex organizations such as large (and not so large) food companies. Ultimately, this groundbreaking book champions the implementation of a design role in defining and executing business strategies and business processes. Not only are designers tremendously important to the present and future successes of food corporations, but they should play an active and decisive role at the executive board level of any food company that strives for greater success.
Based on "Heiskanen/Moritz" which served for more than 30 years as a standard reference Treats physical geodesy encyclopaedically Seamless blend of new ideas and methods (GPS, satellites, collocation)
Thielicke here studies the themes of doubt and appropriation in modern Protestant thought. A leading advocate of dialectical theology, Thielicke examines the work of the great German Protestant religious philosophers from Lessing and Schliermacher through Barth and Tillich, probing these theologians' understanding of their context and how this tradition can impact our own engagement with our times. Clear, finely nuanced, historically and philosophically mature, this is a vital reflection on the history of theology and in systematic theology.
Food products have always been designed, but usually not consciously. Even when design has been part of the process, it has often been restricted to considerations of packaging, logos, fonts and colors. But now design is impacting more dramatically on the complex web that makes up our food supply, and beginning to make it better. Ways of thinking about design have broad applications and are becoming central to how companies compete. To succeed, food designers need to understand consumers and envision what they want, and to use technology and systems to show they can deliver what has been envisioned. They also need to understand organizations in order to make innovation happen in a corporation. The authors of this book argue that design has been grossly underestimated in the food industry. The role of design in relation to technology of every kind (materials, mechanics, ingredients, conversion, transformation, etc.) is described, discussed, challenged and put into proper perspective. The authors deftly analyze and synthesize complex concepts, inspiring new ideas and practices through real-world examples. The second part of the book emphasizes the role of innovation and how the elements described and discussed in the first parts (design, technology, business) must join forces in order to drive valuable innovation in complex organizations such as large (and not so large) food companies. Ultimately, this groundbreaking book champions the implementation of a design role in defining and executing business strategies and business processes. Not only are designers tremendously important to the present and future successes of food corporations, but they should play an active and decisive role at the executive board level of any food company that strives for greater success.
Dermatology" covers all the classical and related fields of dermatology, providing a wealth of infor- mation on clinical features, pathophysiology, and differen- tial diagnosis. Approximately 850 excellent color figures help the reader become acquainted with the immense variety of dermatological diseases. Each chapter contains detailed proposals for comprehensive therapy. The book is a must for every doctor confronted with dermatological problems.
This volume describes the isotopes, atoms, atomic ions, molecules, and clusters of the six platinum group elements Ru, Rh, Pd, Os, Ir, and Pt. It starts with a compilation of the properties of the isotopes, followed by the description of the formation and separation of the radioactive isotopes. The chapters on the atoms and atomic ions deal with the configuration of the outer-shell electrons, manifested by optical terms and spectra, ionization energy, and electron affinity, as weil as with the energy levels of the inner-shell electrons, manifested by X-ray spectra and Auger electron spectra. The last section gives information on the formation and the physical properties of the plati num group molecules and clusters. Most of the contributions are written by extern al experts (for details, see the back of the titte page). One of the authors (Prof. Y. Cauchois) thanks Dr. M. Othmane for his constant and efficient cooperation in the treatment of the drafts and the checking of the proofs. Frankfurt am Main, January 1989 Dieter Koschel XI Table 0' Contents Page 1 Ru, Rh, Pd, Os, Ir, and Pt Isotopes 1.1 Introductory Remarks . . . . .
Includes articles on social change and sports development including the problem of doping and the responsibility of science, talent identification and promotion, the Olympic uideal and reality, the athletes' village, the development of world athletics, and what makes athletics valuable.
With the growing recognition during the last two centuries that the Earth has an immense age and processes over long periods of time have changed the morphology and composition of the Earth's crust, geologists have become increasingly interested in determination of absolute ages. A rela tive geochronology was established on the basis of the lithostratigraphic and biostratigraphic principles developed during the last century. With the discovery of radioactivity, the basis for a new geoscientific discipline - geochronology - was established (Rutherford 1906). It is the study of geological time, based mainly on the time signatures provided by the isotopic composition in geologic materials. The isotopic signature in a rock yields more information than that provided by the geochemical signature alone because it reflects the origin and history of the element in the rock. The aim of geochronology is to calibrate and standardize chronostrati graphic scales, to develop geological time scales that have a sensitive or at least useful resolution in order to place the geological events in the correct chronological order, and to assign their proper time spans. In practice, the application of geochronology is much wider because the data in the "natural archives" often provide information on the origin, genesis, and history of the materials. This, of course, requires an understanding of the geochemical behavior of the substances involved.
The main theme of this book is micromagnetism and microstructure as well as the analysis of the relations between characteristic properties of the hysteresis loop and microstructure. Also presented is an analysis of the role of microstructure in the fundamental magnetic properties (for example, magnetorestriction or critical behaviour) of crystalline and amorphous alloys. The authors apply the theory of micromagnetism to all aspects of advanced magnetic materials including domain patterns and magnetization processes under the influence of defect structures. Coverage includes modern developments in computational micromagnetism and its application to spin structures of small particles and platelets. It will be of interest to researchers and graduate students in condensed matter, physics, electrical engineering and materials science, as well as to industrial researchers working in the electrotechnical and recording industry.
The aim of the series is to present new and important developments in pure and applied mathematics. Well established in the community over two decades, it offers a large library of mathematics including several important classics. The volumes supply thorough and detailed expositions of the methods and ideas essential to the topics in question. In addition, they convey their relationships to other parts of mathematics. The series is addressed to advanced readers wishing to thoroughly study the topic. Editorial Board Lev Birbrair, Universidade Federal do Ceará, Fortaleza, Brasil Walter D. Neumann, Columbia University, New York, USA Markus J. Pflaum, University of Colorado, Boulder, USA Dierk Schleicher, Jacobs University, Bremen, Germany Katrin Wendland, University of Freiburg, Germany Honorary Editor Victor P. Maslov, Russian Academy of Sciences, Moscow, Russia Titles in planning include Yuri A. Bahturin, Identical Relations in Lie Algebras (2019) Yakov G. Berkovich and Z. Janko, Groups of Prime Power Order, Volume 6 (2019) Yakov G. Berkovich, Lev G. Kazarin, and Emmanuel M. Zhmud', Characters of Finite Groups, Volume 2 (2019) Jorge Herbert Soares de Lira, Variational Problems for Hypersurfaces in Riemannian Manifolds (2019) Volker Mayer, Mariusz Urbański, and Anna Zdunik, Random and Conformal Dynamical Systems (2021) Ioannis Diamantis, Boštjan Gabrovšek, Sofia Lambropoulou, and Maciej Mroczkowski, Knot Theory of Lens Spaces (2021)
Miniature Monuments: Modeling German History offers a series of essays on small-scale models of bombed out cities. Created between 1946 and the present, these plastic renderings of places provide eerie glimpses of destruction and devastation resulting of the air war. This study thus permits fresh angles on post-war responses to the compounded losses of WW II, and it does so through considering these “miniature monuments” (of, among others, Frankfurt, Munich, Schwetzingen, Heilbronn and Hiroshima) in a deep cultural history that interlaces the sixteenth, eighteenth, and twentieth centuries. Three-dimensional renderings in diminutive size have rarely been subjected to rigorous theoretical reflection. Conventionally, models, whether of ruins or intact spaces, have been assumed to be “easily legible”; that is, they have been assumed to be vehicles of the authentic. Yet rubble and other models should be theorized as complex simulacra of abstract realities and catalysts of memories. Miniature Monuments thus tackles a haunting paradox: building ruins. The book elucidates how utterly contingent processes of crumbling and collapse (the English words for the Latin ruina) came to command such great interest in modern Europe that tremendous efforts were taken to uncover, render, and, most of all, recreate ruins.
This two-volume book serves as a thorough introduction to the field of high-energy particle accelerator physics and beam dynamics. Volume 1 provides a general understanding of the field and a firm basis for the study of the more elaborate topic, mainly nonlinear and higher-order beam dynamics, which is the subject of Volume 2.
Innovation and new product development are increasingly perceived as drivers of profits in the food industry. Companies are dedicating a large amount of resources to these areas and it is crucial that individuals understand how to be part of this new strategy. Food Industry Innovation School focuses on key skills needed to drive new ideas from initial concepts through to successful products on the shelf. The author argues that any individual can learn how to lead innovation within complex organizations utilizing companies? commercial and financialresources. The book focuses on the impact of single individuals on company successes. Case studies from the marketplace provide valuable examples of accomplishments and failures. Product development involves a plethora of activities such as R&D,innovation, engineering, packaging and design, manufacturing,logistics and supply chain management, as well as marketing, sales and finance, and the book addresses all these crucial functions undertaken by food companies and manufacturers of other packaged consumer goods. The learning principles and examples (based on theauthor's personal experience) are valid in many fast-movingconsumer goods organizations and so the principles, best practices and solutions offered in the 12 chapters are relevant to a wide audience in the food industry and beyond, including those working in household products, retail, the automotive industry, computers and IT, furniture, and even media and publishing. Read more: http://www.innovationschool.co/
The problem of classifying the finite-dimensional simple Lie algebras over fields of characteristic p > 0 is a long-standing one. Work on this question during the last 45 years has been directed by the Kostrikin–Shafarevich Conjecture of 1966, which states that over an algebraically closed field of characteristic p > 5 a finite-dimensional restricted simple Lie algebra is classical or of Cartan type. This conjecture was proved for p > 7 by Block and Wilson in 1988. The generalization of the Kostrikin–Shafarevich Conjecture for the general case of not necessarily restricted Lie algebras and p > 7 was announced in 1991 by Strade and Wilson and eventually proved by Strade in 1998. The final Block–Wilson–Strade–Premet Classification Theorem is a landmark result of modern mathematics and can be formulated as follows: Every finite-dimensional simple Lie algebra over an algebraically closed field of characteristic p > 3 is of classical, Cartan, or Melikian type. In the three-volume book, the author is assembling the proof of the Classification Theorem with explanations and references. The goal is a state-of-the-art account on the structure and classification theory of Lie algebras over fields of positive characteristic leading to the forefront of current research in this field. This first volume is devoted to preparing the ground for the classification work to be performed in the second and third volume. The concise presentation of the general theory underlying the subject matter and the presentation of classification results on a subclass of the simple Lie algebras for all odd primes make this volume an invaluable source and reference for all research mathematicians and advanced graduate students in albegra.
This volume continues the discussion of particle accelerator physics beyond the introduction found in volume I. Basic principles of beam dynamics already discussed in the first volume are expanded here into the nonlinear regime so as to tackle fundamental problems encountered in present day accelerator design and development. Nonlinear dynamics is discussed both in terms of the transverse phase space, to determine chromatic and geometric aberrations which limit the dynamic aperture, as well as the longitude phase space in connection with phase focusing at very small values of the momentum compaction. Whenever possible, effects derived theoretically are compared with observations made with existing accelerators.
The problem of classifying the finite-dimensional simple Lie algebras over fields of characteristic p > 0 is a long-standing one. Work on this question during the last 45 years has been directed by the Kostrikin-Shafarevich Conjecture of 1966, which states that over an algebraically closed field of characteristic p > 5 a finite-dimensional restricted simple Lie algebra is classical or of Cartan type. This conjecture was proved for p > 7 by Block and Wilson in 1988. The generalization of the Kostrikin-Shafarevich Conjecture for the general case of not necessarily restricted Lie algebras and p > 7 was announced in 1991 by Strade and Wilson and eventually proved by Strade in 1998. The final Block-Wilson-Strade-Premet Classification Theorem is a landmark result of modern mathematics and can be formulated as follows: Every finite-dimensional simple Lie algebra over an algebraically closed field of characteristic p > 3 is of classical, Cartan, or Melikian type. In the three-volume book, the author is assembling the proof of the Classification Theorem with explanations and references. The goal is a state-of-the-art account on the structure and classification theory of Lie algebras over fields of positive characteristic leading to the forefront of current research in this field. This first volume is devoted to preparing the ground for the classification work to be performed in the second and third volume. The concise presentation of the general theory underlying the subject matter and the presentation of classification results on a subclass of the simple Lie algebras for all odd primesmake this volume an invaluable source and reference for all research mathematicians and advanced graduate students in albegra.
While compilers for high-level programming languages are large complex software systems, they have particular characteristics that differentiate them from other software systems. Their functionality is almost completely well-defined - ideally there exist complete precise descriptions of the source and target languages. Additional descriptions of the interfaces to the operating system, programming system and programming environment, and to other compilers and libraries are often available. The book deals with the optimization phase of compilers. In this phase, programs are transformed in order to increase their efficiency. To preserve the semantics of the programs in these transformations, the compiler has to meet the associated applicability conditions. These are checked using static analysis of the programs. In this book the authors systematically describe the analysis and transformation of imperative and functional programs. In addition to a detailed description of important efficiency-improving transformations, the book offers a concise introduction to the necessary concepts and methods, namely to operational semantics, lattices, and fixed-point algorithms. This book is intended for students of computer science. The book is supported throughout with examples, exercises and program fragments.
Through both explanation and discussion, this title presents a complete review into mesocrystals, and accurately describes this relatively new study of established materials. This book also provides an introduction to other areas of crystallisation including self-assembly, classical crystallisation and colloidal crystals. Key features: Description of crystals as well as their formation processes and ways to modify them. Examines new ways towards the design of new materials and aids comprehension of the building principles of biominerals. Helps to explain many unusual observations made in the study of crystallisation. Written by the professionals in this subject ‘Mesocrystals: New Self-Assembled Structures’ outlines the future potential of this topic within a variety of disciplines including engineering science, physics and chemistry, making it a versatile and valuable text.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.