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Please note: This is a companion version & not the original book. Sample Book Insights: #1 Water is alive and can exhibit consciousness by changing shapes, reacting to thoughts, and remembering what it came into contact with. It all began with an experiment conducted by the Japanese scientist Dr. Masaru Emoto. He began his experiment with the intent to cure people’s diseases, but he ended up discovering the true nature of water. #2 The power of water to hold memory was demonstrated by Dr. Masaru Emoto, who collected water samples from different places and exposed them to different forms of energy. The water samples that were exposed to negative phrases like I hate you and you disgust me showed deformed, wholly dissolved, and uneven crystal formations. #3 The experiment opened new horizons in the field of quantum physics. It led us to believe how perceptive and sensitive matter can be. We cannot be oblivious to the fact that our intentions, thoughts, words, and actions impact our life, health, and well-being.
The Quantum Thief is a Kirkus Reviews Best of 2011 Science Fiction & Fantasy title. One of Library Journal's Best SF/Fantasy Books of 2011 Jean le Flambeur is a post-human criminal, mind burglar, confidence artist, and trickster. His origins are shrouded in mystery, but his exploits are known throughout the Heterarchy- from breaking into the vast Zeusbrains of the Inner System to stealing rare Earth antiques from the aristocrats of Mars. Now he's confined inside the Dilemma Prison, where every day he has to get up and kill himself before his other self can kill him. Rescued by the mysterious Mieli and her flirtatious spacecraft, Jean is taken to the Oubliette, the Moving City of Mars, where time is currency, memories are treasures, and a moon-turnedsingularity lights the night. What Mieli offers is the chance to win back his freedom and the powers of his old self-in exchange for finishing the one heist he never quite managed. As Jean undertakes a series of capers on behalf of Mieli and her mysterious masters, elsewhere in the Oubliette investigator Isidore Beautrelet is called in to investigate the murder of a chocolatier, and finds himself on the trail of an arch-criminal, a man named le Flambeur.... Hannu Rajaniemi's The Quantum Thief is a crazy joyride through the solar system several centuries hence, a world of marching cities, ubiquitous public-key encryption, people communicating by sharing memories, and a race of hyper-advanced humans who originated as MMORPG guild members. But for all its wonders, it is also a story powered by very human motives of betrayal, revenge, and jealousy. It is a stunning debut. At the Publisher's request, this title is being sold without Digital Rights Management Software (DRM) applied.
A PRINTZ MEDAL WINNER! A MORRIS AWARD WINNER! AN AMERICAN INDIAN YOUTH LITERATURE AWARD YA HONOR BOOK! A REESE WITHERSPOON x HELLO SUNSHINE BOOK CLUB YA PICK An Instant #1 New York Times Bestseller Soon to be adapted at Netflix for TV with President Barack Obama and Michelle Obama's production company, Higher Ground. “One of this year's most buzzed about young adult novels.” —Good Morning America A TIME Magazine Best YA Book of All Time Selection Amazon's Best YA Book of 2021 So Far (June 2021) A 2021 Kids' Indie Next List Selection An Entertainment Weekly Most Anticipated Books of 2021 Selection A PopSugar Best March 2021 YA Book Selection With four starred reviews, Angeline Boulley's debut novel, Firekeeper's Daughter, is a groundbreaking YA thriller about a Native teen who must root out the corruption in her community, perfect for readers of Angie Thomas and Tommy Orange. Eighteen-year-old Daunis Fontaine has never quite fit in, both in her hometown and on the nearby Ojibwe reservation. She dreams of a fresh start at college, but when family tragedy strikes, Daunis puts her future on hold to look after her fragile mother. The only bright spot is meeting Jamie, the charming new recruit on her brother Levi’s hockey team. Yet even as Daunis falls for Jamie, she senses the dashing hockey star is hiding something. Everything comes to light when Daunis witnesses a shocking murder, thrusting her into an FBI investigation of a lethal new drug. Reluctantly, Daunis agrees to go undercover, drawing on her knowledge of chemistry and Ojibwe traditional medicine to track down the source. But the search for truth is more complicated than Daunis imagined, exposing secrets and old scars. At the same time, she grows concerned with an investigation that seems more focused on punishing the offenders than protecting the victims. Now, as the deceptions—and deaths—keep growing, Daunis must learn what it means to be a strong Anishinaabe kwe (Ojibwe woman) and how far she’ll go for her community, even if it tears apart the only world she’s ever known.
This outstanding collection of essays in commemoration of John S. Bell is the result of the "Quantum (Un)speakables" conference organised by the University of Vienna. The title was taken from a famous note written by John Bell during the "Schrödinger Symposium" of 1987. The book leads the reader from the foundations of quantum mechanics to quantum entanglement, quantum cryptography, and quantum information, and is written for all those who need more insight into this new area of physics.
UNDERSTANDING OPERATING SYSTEMS provides a basic understanding of operating systems theory, a comparison of the major operating systems in use, and a description of the technical and operational tradeoffs inherent in each. The effective two-part organization covers the theory of operating systems, their historical roots, and their conceptual basis (which does not change substantially), culminating with how these theories are applied in the specifics of five operating systems (which evolve constantly). The authors explain this technical subject in a not-so-technical manner, providing enough detail to illustrate the complexities of stand-alone and networked operating systems. UNDERSTANDING OPERATING SYSTEMS is written in a clear, conversational style with concrete examples and illustrations that readers easily grasp.
This book provides a comprehensive overview of modern particle physics accessible to anyone with a true passion for wanting to know how the universe works. We are introduced to the known particles of the world we live in. An elegant explanation of quantum mechanics and relativity paves the way for an understanding of the laws that govern particle physics. These laws are put into action in the world of accelerators, colliders and detectors found at institutions such as CERN and Fermilab that are in the forefront of technical innovation. Real world and theory meet using Feynman diagrams to solve the problems of infinities and deduce the need for the Higgs boson.Facts and Mysteries in Elementary Particle Physics offers an incredible insight from an eyewitness and participant in some of the greatest discoveries in 20th century science. From Einstein's theory of relativity to the spectacular discovery of the Higgs particle, this book will fascinate and educate anyone interested in the world of quarks, leptons and gauge theories.This book also contains many thumbnail sketches of particle physics personalities, including contemporaries as seen through the eyes of the author. Illustrated with pictures, these candid sketches present rare, perceptive views of the characters that populate the field.The Chapter on Particle Theory, in a pre-publication, was termed 'superbly lucid' by David Miller in Nature (Vol. 396, 17 Dec. 1998, p. 642).
A crucial step during the design and engineering of communication systems is the estimation of their performance and behavior; especially for mathematically complex or highly dynamic systems network simulation is particularly useful. This book focuses on tools, modeling principles and state-of-the art models for discrete-event based network simulations, the standard method applied today in academia and industry for performance evaluation of new network designs and architectures. The focus of the tools part is on two distinct simulations engines: OmNet++ and ns-3, while it also deals with issues like parallelization, software integration and hardware simulations. The parts dealing with modeling and models for network simulations are split into a wireless section and a section dealing with higher layers. The wireless section covers all essential modeling principles for dealing with physical layer, link layer and wireless channel behavior. In addition, detailed models for prominent wireless systems like IEEE 802.11 and IEEE 802.16 are presented. In the part on higher layers, classical modeling approaches for the network layer, the transport layer and the application layer are presented in addition to modeling approaches for peer-to-peer networks and topologies of networks. The modeling parts are accompanied with catalogues of model implementations for a large set of different simulation engines. The book is aimed at master students and PhD students of computer science and electrical engineering as well as at researchers and practitioners from academia and industry that are dealing with network simulation at any layer of the protocol stack.
In this historical volume Salvatore Califano traces the developments of ideas and theories in physical and theoretical chemistry throughout the 20th century. This seldom-told narrative provides details of topics from thermodynamics to atomic structure, radioactivity and quantum chemistry. Califano’s expertise as a physical chemist allows him to judge the historical developments from the point of view of modern chemistry. This detailed and unique historical narrative is fascinating for chemists working in the fields of physical chemistry and is also a useful resource for science historians who will enjoy access to material not previously dealt with in a coherent way.
Multithreaded computer architecture has emerged as one of the most promising and exciting avenues for the exploitation of parallelism. This new field represents the confluence of several independent research directions which have united over a common set of issues and techniques. Multithreading draws on recent advances in dataflow, RISC, compiling for fine-grained parallel execution, and dynamic resource management. It offers the hope of dramatic performance increases through parallel execution for a broad spectrum of significant applications based on extensions to `traditional' approaches. Multithreaded Computer Architecture is divided into four parts, reflecting four major perspectives on the topic. Part I provides the reader with basic background information, definitions, and surveys of work which have in one way or another been pivotal in defining and shaping multithreading as an architectural discipline. Part II examines key elements of multithreading, highlighting the fundamental nature of latency and synchronization. This section presents clever techniques for hiding latency and supporting large synchronization name spaces. Part III looks at three major multithreaded systems, considering issues of machine organization and compilation strategy. Part IV concludes the volume with an analysis of multithreaded architectures, showcasing methodologies and actual measurements. Multithreaded Computer Architecture: A Summary of the State of the Art is an excellent reference source and may be used as a text for advanced courses on the subject.
The first edition of this work appeared in 1930, and its originality won it immediate recognition as a classic of modern physical theory. The fourth edition has been bought out to meet a continued demand. Some improvements have been made, the main one being the complete rewriting of the chapter on quantum electrodymanics, to bring in electron-pair creation. This makes it suitable as an introduction to recent works on quantum field theories.