The theory of relativity convinced many philosophers that space and time are fundamentally alike, and that they are mere aspects of a more fundamental space-time. In The Nature of Time, Ulrich Meyer argues against this consensus view. Instead of a 'spatial' account of time that treats instants like positions in space, he presents the first comprehensive defense of a 'modal' account that emphasizes the similarities between times and the possible worlds in modal logic. Modal accounts of time are naturally cast in terms of a tense logic that accounts for temporal distinctions in terms of primitive tense operators. Tense logic was originally developed to provide a linguistic theory of verb tense in natural languages, but here Meyer proposes that it can be treated as a metaphysical theory of the nature of time. Contrary to popular belief, such modal accounts of time do not commit us to the view that there is something metaphysically special about the present moment, and they are easily reconciled with the theory of relativity.
In this pioneering work of systematic research, Meyer demonstrates in detail how Bach quoted and alluded to the text of Luther's German Bible in his liturgical libretti. Compiled with the interests of both scholar and performer in mind, this volume supplements the fundamental understanding of the liturgical functions of these cantatas of Bach, as well as providing a resource for further theological, musical, and linguistic study.
Algorithms that have to process large data sets have to take into account that the cost of memory access depends on where the data is stored. Traditional algorithm design is based on the von Neumann model where accesses to memory have uniform cost. Actual machines increasingly deviate from this model: while waiting for memory access, nowadays, microprocessors can in principle execute 1000 additions of registers; for hard disk access this factor can reach six orders of magnitude. The 16 coherent chapters in this monograph-like tutorial book introduce and survey algorithmic techniques used to achieve high performance on memory hierarchies; emphasis is placed on methods interesting from a theoretical as well as important from a practical point of view.
Bone and Cartilage Engineering provides a complete overview of recent knowledge in bone and cartilage tissue engineering. It follows a logical approach to the various aspects of extracorporal bone and cartilage tissue engineering. The cooperation between a basic scientist and a clinician made it possible to structure the book's content and style according to the interdisciplinary character of the field. The comprehensive nature of the book, including detailed descriptions of laboratory procedures, preclinical approaches, clinical applications, and regulatory issues, will make it an invaluable basis for everyone working in this field. This book will serve as a fundamental tool for basic researchers to establish or refine tissue engineering techniques as well as for clinicians to understand and use this modern therapeutic option.
This work gives a comprehensive overview on materials, processes and technological challenges for electrochemical storage and conversion of energy. Optimization and development of electrochemical cells requires consideration of the cell as a whole, taking into account the complex interplay of all individual components. Considering the availability of resources, their environmental impact and requirements for recycling, the design of new concepts has to be based on the understanding of relevant processes at an atomic level.
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