Author is a renowned writer in international climbing community Fascinating story of hoax that inspired a quest for a North American Shangri-La Vivid recounting of fabled mountains from across the world Using an infamous deception about a fake mountain range in British Columbia as her jumping-off point, Katie Ives, the well-known editor of Alpinist, explores the lure of blank spaces on the map and the value of the imagination. In Imaginary Peaks she details the cartographical mystery of the Riesenstein Hoax within the larger context of climbing history and the seemingly endless quest for newly discovered peaks and claims of first ascents. Imaginary Peaks is an evocative, thought-provoking tale, immersed in the literature of exploration, study of maps, and basic human desire.
One of the themes I play around with is the idea of mountains fading in the distance, becoming transparent and flying. I have done this through the use of Canada Geese, which I have personally trained to fly in "V" formation. My goal is to encourage these majestic birds to spell my name across the sky. The most difficult letter of course is "S" because you have to get two flocks to fly in opposite directions on a near collision course.
This book serves as a comprehensive treatment of the advanced microscopic properties of lithium- and sodium-based batteries. It focuses on the development of the quasiparticle framework and the successful syntheses of cathode/electrolyte/anode materials in these batteries. FEATURES Highlights lithium-ion and sodium-ion batteries as well as lithium sulfur-, aluminum-, and iron-related batteries Describes advanced battery materials and their fundamental properties Addresses challenges to improving battery performance Develops theoretical predictions and experimental observations under a unified quasiparticle framework Targets core issues such as stability and efficiencies Lithium-Related Batteries: Advances and Challenges will appeal to researchers and advanced students working in battery development, including those in the fields of materials, chemical, and energy engineering.
Ferroelectric materials have been and still are widely used in many applications, that have moved from sonar towards breakthrough technologies such as memories or optical devices. This book is a part of a four volume collection (covering material aspects, physical effects, characterization and modeling, and applications) and focuses on ways to obtain high-quality materials exhibiting large ferroelectric activity. The book covers the aspect of material synthesis and growth, doping and composites, lead-free devices, and thin film synthesis. The aim of this book is to provide an up-to-date review of recent scientific findings and recent advances in the field of ferroelectric materials, allowing a deep understanding of the material aspects of ferroelectricity.
Examines the lure of mountains in German literature, philosophy, film, music, and culture from the Middle Ages to the twenty-first century. Mountains have always stirred the human imagination, playing a crucial role in the cultural evolution of peoples around the globe and becoming infused with meaning in the process. Beyond their geographical-geological significance, mountains affect the topography of the mind, whether as objects of peril or attraction, of spiritual enlightenment or existential fulfillment, of philosophical contemplation or aesthetic inspiration. This volume challenges the oversimplified assumption that human interaction with mountains is a distinctly modern development, one that began with the empowerment of the individual in the wake of Enlightenment rationalism and Romantic subjectivity. These essays by European and North American scholars examine the lure of mountains in German literature, philosophy, film, music, and culture from the Middle Ages to the present, with a focus on the interaction between humans and the alpineenvironment. The contributors consider mountains not as mere symbolic tropes or literary metaphors, but as constituting a tangible reality that informs the experiences and ideas of writers, naturalists, philosophers, filmmakers, and composers. Overall, this volume seeks to provide multiple answers to questions regarding the cultural significance of mountains as well as the physical practice of climbing them. Contributors: Peter Arnds, Olaf Berwald, Albrecht Classen, Roger Cook, Scott Denham, Sean Franzel, Christof Hamann, Harald Höbusch, Dan Hooley, Peter Höyng, Sean Ireton, Oliver Lubrich, Anthony Ozturk, Caroline Schaumann, Heather I. Sullivan, Johannes Türk, Sabine Wilke, Wilfried Wilms. SEAN IRETON is Associate Professor of German at the University of Missouri. CAROLINE SCHAUMANN is Professor of German Studies at Emory University.
This book trains engineers and students in the practical application of machining dynamics, with a particular focus on milling. The book walks readers through the steps required to improve machining productivity through chatter avoidance and reduced surface location error, and covers in detail topics such as modal analysis (including experimental methods) to obtain the tool point frequency response function, descriptions of turning and milling, force modeling, time domain simulation, stability lobe diagram algorithms, surface location error calculation for milling, beam theory, and more. This new edition includes updates throughout the entire text, new exercises and examples, and a new chapter on machining tribology. It is a valuable resource for practicing manufacturing engineers and graduate students interested in learning how to improve machining productivity through consideration of the process dynamics.
"The definitive guide to mountains and climbing." --Conrad Anker More than 800,000 copies sold since the first edition was published in 1960, and translated into 12 languages Detailed instructions and hundreds of illustrations share the latest in best practices Researched and written by a team of expert climbers, guides, and instructors Mountaineering: The Freedom of the Hills is the most significant guidebook ever published. Born from the handwritten climbing tips of early volunteers of the Seattle-based Mountaineers organization, this fundamental how-to manual has inspired emerging climbers around the globe across nine editions for more than six decades. Mountaineers Books is proud to present the 10th edition of this master guide, commonly referred to as "Freedom." From planning a weekend backpacking trip to navigating the logistics of a months-long alpine expedition, from tying knots and hitches to essential belaying and rappelling techniques, from setting up camp in the wilderness to summiting glaciated peaks--this comprehensive textbook written by climbers for climbers covers it all.
En esta tesis se han estudiado los imanes moleculares (SMM o Single Molecule Magnets en inglés) como potenciales candidatos para formar parte del procesador de un ordenador cuántico. En concreto, moléculas compuestas por uno, dos o tres iones que actúan como qubits. Por otro lado, se ha desarrollado una nueva generación de microsusceptómetros SQUID de 30 µm de diámetro que ha permitido estudiar el comportamiento de muestras de tamaño nanométrico como un primer paso para verificar el comportamiento de estos SMM aislados de su medio cristalino.
Volume 1 of this work presents theory and methods to study the structure of condensed matter on different time scales. The authors cover the structure analysis by X-ray diffraction methods from crystalline to amorphous materials, from static-relaxed averaged structures to short-lived electronically excited structures, including detailed descriptions of the time-resolved experimental methods. Complementary, an overview of the theoretical description of condensed matter by static and time-dependent density functional theory is given, starting from the fundamental quantities that can be obtained by these methods through to the recent challenges in the description of time dependent phenomena such as optical excitations. Contents Static structural analysis of condensed matter: from single-crystal to amorphous DFT calculations of solids in the ground state TDDFT, excitations, and spectroscopy Time-resolved structural analysis: probing condensed matter in motion Ultrafast science
