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This book presents the results of the Cide Archaeological Project, an archaeological surface survey undertaken between 2009 - 2011 in the coastal Black Sea district of Cide and the adjacent inland district of Senpazar, Kastamonu province, Turkey.
Materials Kinetics: Transport and Rate Phenomena provides readers with a clear understanding of how physical-chemical principles are applied to fundamental kinetic processes. The book integrates advanced concepts with foundational knowledge and cutting-edge computational approaches, demonstrating how diffusion, morphological evolution, viscosity, relaxation and other kinetic phenomena can be applied to practical materials design problems across all classes of materials. The book starts with an overview of thermodynamics, discussing equilibrium, entropy, and irreversible processes. Subsequent chapters focus on analytical and numerical solutions of the diffusion equation, covering Fick's laws, multicomponent diffusion, numerical solutions, atomic models, and diffusion in crystals, polymers, glasses, and polycrystalline materials. Dislocation and interfacial motion, kinetics of phase separation, viscosity, and advanced nucleation theories are examined next, followed by detailed analyses of glass transition and relaxation behavior. The book concludes with a series of chapters covering molecular dynamics, energy landscapes, broken ergodicity, chemical reaction kinetics, thermal and electrical conductivities, Monte Carlo simulation techniques, and master equations. - Covers the full breadth of materials kinetics, including organic and inorganic materials, solids and liquids, theory and experiments, macroscopic and microscopic interpretations, and analytical and computational approaches - Demonstrates how diffusion, viscosity microstructural evolution, relaxation, and other kinetic phenomena can be leveraged in the practical design of new materials - Provides a seamless connection between thermodynamics and kinetics - Includes practical exercises that reinforce key concepts at the end of each chapter
This book addresses the legal-geographical implications of the fact that landscapes are not static, but dynamic. Within the field of legal geography, the spatial relationship of law to landscape is usually considered to be static. Environments are often considered fixed, and consequently inert, as places that literally don’t go anywhere. Typically, then, it is what happens in these places, rather than the place itself, that commands academic attention. In contrast to this static viewpoint, Law and the Kinetic Environment considers how many landscapes are in flux and, as a result, may be seen as dynamic. Natural phenomena, such as oozing lava, moving glaciers, or bubbling geothermal pools, challenge and test the normative conceptualizations of stability of place, property ownership, and legal regulation. Consequently, such dynamic landscapes enliven and transform law, offering new jurisprudential insights into what law is and how it operates in response to the kineticism that, this book argues is, to some degree, inherent in all landscapes. This original engagement with legal geography will appeal to those with general interests in this area, as well as specific concerns with questions of law and place, property and the environment.
This book presents an ecophilosophy of cinema: an account of the moving image in relation to the lived ecologies – material, social, and perceptual relations – within which movies are produced, consumed, and incorporated into cultural life. If cinema takes us on mental and emotional journeys, the author argues that those journeys that have reshaped our understanding of ourselves, life, and the Earth and universe. A range of styles are examined, from ethnographic and wildlife documentaries, westerns and road movies, sci-fi blockbusters and eco-disaster films to the experimental and art films of Tarkovsky, Herzog, Malick, and Brakhage, to YouTube’s expanding audio-visual universe.
This book is concerned with recent advances in fitness landscapes. The concept of fitness landscapes originates from theoretical biology and refers to a framework for analysing and visualizing the relationships between genotypes, phenotypes and fitness. These relationships lay at the centre of attempts to mathematically describe evolutionary processes and evolutionary dynamics. The book addresses recent advances in the understanding of fitness landscapes in evolutionary biology and evolutionary computation. In the volume, experts in the field of fitness landscapes present these findings in an integrated way to make it accessible to a number of audiences: senior undergraduate and graduate students in computer science, theoretical biology, physics, applied mathematics and engineering, but also researcher looking for a reference or/and entry point into using fitness landscapes for analysing algorithms. Also practitioners wanting to employ fitness landscape techniques for evaluating bio- and nature-inspired computing algorithms can find valuable material in the book. For teaching proposes, the book could also be used as a reference handbook.
Energy Landscapes of Nanoscale Systems provides a snapshot of the state-of-the-art in energy landscapes theory and applications. The book's chapters reflect diversity and knowledge transfer that is a key strength of the energy landscape approach. To reflect the breadth of this field, contributions include applications for clusters, biomolecules, crystal structure prediction and glassy materials. Chapters highlighting new methodologies, especially enhanced sampling techniques are included. In particular, the development and application of global optimization for structure prediction, methods for treating broken ergodicity on multifunnel landscapes, and treatment of rare event dynamics that reflect the state-of-the-art are featured. This book is an important reference source for materials scientists and energy engineers who want to understand more about how nanotechnology applies to the energy landscape approach. This volume is dedicated to Prof. Roy L. Johnston, who was formerly Co-Editor of the Frontiers of Nanoscience series, and who passed away in 2019. - Outlines applications and advances in theory and simulation of energy systems at the nanoscale - Explores how the energy landscapes approach is being applied to nanoscale materials - Assesses major challenges in applying nanomaterials for energy applications on an industrial scale
This book explores the work of landscape architects in Australia since the 1960s. It describes how landscape architects are, as contemporary Australians, listening more closely to the language of the landscape and how they are designing new landscapes in
This monograph extends the basic concepts of Darwinian evolution to accommodate recent findings and perspectives from the fields of biology, physics, chemistry and mathematics. It explains how complex systems, contrary to expectations, can spontaneously exhibit degrees of order.
This book is a printed edition of the Special Issue " Aptamers" that was published in IJMS