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  • Smoothed Particle Hydrodynamics: A Meshfree Particle Method
    Smoothed Particle Hydrodynamics: A Meshfree Particle Method

    This is the first-ever book on smoothed particle hydrodynamics (SPH) and its variations, covering the theoretical background, numerical techniques, code implementation issues, and many novel and interesting applications.It contains many appealing and practical examples, including free surface flows, high explosive detonation and explosion, underwater explosion and water mitigation of explosive shocks, high velocity impact and penetration, and multiple scale simulations coupled with the molecular dynamics method.An SPH source code is provided, making this a friendly book for readers and SPH users.

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  • Particle Physics
    Particle Physics

    An accessible and carefully structured introduction to Particle Physics, including important coverage of the Higgs Boson and recent progress in neutrino physics. Fourth edition of this successful title in the Manchester Physics seriesIncludes information on recent key discoveries including: An account of the discovery of exotic hadrons, byond the simple quark model; Expanded treatments of neutrino physics and CP violation in B-decays; An updated account of ‘physics beyond the standard model’, including the interaction of particle physics with cosmologyAdditional problems in all chapters, with solutions to selected problems available on the book’s websiteAdvanced material appears in optional starred sections

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  • Particle Detectors
    Particle Detectors

    Elementary particles can be identified through various techniques, depending on the purpose of the measurement and which relevant quantities, such as time, energy, and spatial coordinates, have to be measured.Detectors cover the measurement of energies spanning from the very low to the highest energies observed in cosmic rays.Describing the instrumentation for experiments in high energy physics and astroparticle physics, this edition describes track detectors, calorimeters, particle identification, neutrino detectors, momentum measurement, electronics, and data analysis.It also discusses applications of these detectors in other fields, such as nuclear medicine, radiation protection, and environmental science.Problem sets have been added to each chapter and additional instructive material has been provided, making this an excellent reference for graduate students and researchers in particle physics.First published in 2008, this title has been reissued as an Open Access publication on Cambridge Core.

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  • Many-Particle Physics
    Many-Particle Physics

    The first, second, and third editions of this book seem to occur at ten year intervals.The intent is to keep the book up-to-date. Many-body theory is a field which continually evolves in time.Journals only publish new results, conferences only invite speakers to report new phenomena, and agencies only fund scientists to do new physics.Today's physics is old hat by tomorrow. Students want to learn new material, and textbooks must be modified to keep up with the times.The early chapters in this book teach the techniques of many-body theory.They are largely unchanged in format. The later chapters apply the techniques to specific problems.The third edition increases the number of applications.New sections have been added, while old sections have been modified to include recent applications.The previous editions were set in type using pre-computer technology.No computer file existed of the prior editions. The publisher scanned the second edition and gave me a disk with the contents.This scan recorded the words accurately and scrambled the equations into unintelligible form.So I retyped the equations using LaTeX. Although tedious, it allowed me to correct the infinite numbers of typographical errors in the previous edition.The earlier typesetting methods did not permit such corrections.The entire book was edited sentence-by­ sentence. Most old sections of the book were shortened by editing sentences and paragraphs.

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  • What is the wave-particle duality?

    Wave-particle duality is a fundamental concept in quantum mechanics that states that particles, such as electrons and photons, can exhibit both wave-like and particle-like behavior. This means that they can behave as waves, with characteristics such as interference and diffraction, and also as particles, with characteristics such as position and momentum. This duality challenges our classical understanding of particles and waves as distinct entities, and is a key aspect of understanding the behavior of matter and energy at the quantum level.

  • Does the human have particle and wave characteristics?

    Yes, humans and all matter have both particle and wave characteristics. This is known as wave-particle duality, a fundamental concept in quantum mechanics. At the quantum level, particles such as electrons and photons can exhibit wave-like behavior, as demonstrated by phenomena like diffraction and interference. This duality is a key aspect of the behavior of matter and energy at the smallest scales of the universe.

  • Do all quantum objects obey the wave-particle duality?

    Yes, all quantum objects exhibit wave-particle duality, which means they can exhibit both wave-like and particle-like behavior. This duality is a fundamental aspect of quantum mechanics and is observed in phenomena such as the double-slit experiment, where particles exhibit interference patterns characteristic of waves. This duality is a key feature of quantum theory and is essential for understanding the behavior of quantum objects.

  • What is the difference between the wave model and the particle model?

    The wave model describes light as a wave that travels through space, exhibiting properties like interference and diffraction. In contrast, the particle model views light as a stream of particles called photons that carry energy and momentum. The wave model explains phenomena like interference patterns and polarization, while the particle model helps to understand effects like the photoelectric effect and Compton scattering. Both models are used in different contexts to describe the behavior of light.

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  • Particle Combustor Biomass Burning Machine Straw Particle Combustor Full Automatic Biological
    Particle Combustor Biomass Burning Machine Straw Particle Combustor Full Automatic Biological

    Particle Combustor Biomass Burning Machine Straw Particle Combustor Full Automatic Biological

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  • Beyond the God Particle
    Beyond the God Particle

    Two leading physicists discuss the importance of the Higgs Boson, the future of particle physics, and the mysteries of the universe yet to be unraveled.On July 4, 2012, the long-sought Higgs Boson--aka "the God Particle"--was discovered at the world's largest particle accelerator, the LHC, in Geneva, Switzerland.On March 14, 2013, physicists at CERN confirmed it. This elusive subatomic particle forms a field that permeates the entire universe, creating the masses of the elementary particles that are the basic building blocks of everything in the known world--from viruses to elephants, from atoms to quasars.Starting where Nobel Laureate Leon Lederman's bestseller The God Particle left off, this incisive new book explains what's next.Lederman and Hill discuss key questions that will occupy physicists for years to come:* Why were scientists convinced that something like the "God Particle" had to exist?* What new particles, forces, and laws of physics lie beyond the "God Particle"?* What powerful new accelerators are now needed for the US to recapture a leadership role in science and to reach "beyond the God Particle," such as Fermilab's planned Project-X and the Muon Collider?Using thoughtful, witty, everyday language, the authors show how all of these intriguing questions are leading scientists ever deeper into the fabric of nature.Readers of The God Particle will not want to miss this important sequel.

    Price: 17.99 £ | Shipping*: 3.99 £
  • Particle Cosmology and Astrophysics
    Particle Cosmology and Astrophysics

    A graduate-level introduction to the interface between particle physics, astrophysics, and cosmologyThis book explores the exciting interface between the fields of cosmology, high-energy astrophysics, and particle physics, at a level suitable for advanced undergraduate- to graduate-level students as well as active researchers.Without assuming a strong background in particle physics or quantum field theory, the text is designed to be accessible to readers from a range of backgrounds and presents both fundamentals and modern topics in a modular style that allows for flexible use and easy reference.It offers coverage of general relativity and the Friedmann equations, early universe thermodynamics, recombination and the cosmic microwave background, Big Bang nucleosynthesis, the origin and detection of dark matter, the formation of large-scale structure, baryogenesis and leptogenesis, inflation, dark energy, cosmic rays, neutrino and gamma-ray astrophysics, supersymmetry, Grand Unified Theories, sterile neutrinos, and axions.The book also includes numerous worked examples and homework problems, many with solutions.Particle Cosmology and Astrophysics provides readers with an invaluable entrée to this cross-disciplinary area of research and discovery. Accessible to advanced undergraduate to graduate students, as well as researchers in cosmology, high-energy astrophysics, and particle physicsDoes not assume a strong background in particle physics or quantum field theory and contains two chapters specifically for readers with no background in particle physicsBroad scope, covering many topics across particle physics, astrophysics, and particle cosmologyModular presentation for easy reference and flexible useProvides more than 200 homework problems, many with solutionsIdeal for course use or self-study and reference

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  • Philosophy of Particle Physics
    Philosophy of Particle Physics

    This Element offers an introduction to selected philosophical issues that arise in contemporary particle physics, aimed at philosophers who have limited prior exposure to quantum field theory.One the one hand, it critically surveys philosophical work on the representation of particles in quantum field theory, the formal machinery and conceptual implications of renormalization and renormalization group methods, and ontological and methodological questions raised by the use of effective field theory techniques in particle physics.On the other, it identifies topics in particle physics that have not yet received philosophical attention and sketches avenues for philosophical analysis of those topics.The primary aim of the Element is to provide philosophers of physics with an entry point into the literature on the philosophy of particle physics and identify interesting directions for future research for students and researchers alike.

    Price: 17.00 £ | Shipping*: 3.99 £
  • In which year and with which experiment was the wave-particle duality proven?

    The wave-particle duality was proven in 1927 through the famous double-slit experiment conducted by physicist Thomas Young. This experiment demonstrated that light exhibits both wave-like and particle-like properties, leading to the development of the concept of wave-particle duality in quantum mechanics.

  • How can one imagine a photon within the framework of wave-particle duality?

    Within the framework of wave-particle duality, a photon can be imagined as both a wave and a particle simultaneously. As a wave, it exhibits properties such as interference and diffraction, similar to other waves. As a particle, it carries discrete packets of energy and momentum, and can interact with matter as a discrete entity. This duality means that a photon's behavior is best described by both wave and particle characteristics, and it can exhibit wave-like behavior in some situations and particle-like behavior in others. This dual nature of a photon is a fundamental aspect of quantum mechanics.

  • What is the difference between the wave and the particle model of light?

    The wave model of light describes light as a continuous wave with properties such as wavelength, frequency, and amplitude. This model explains phenomena such as interference and diffraction. On the other hand, the particle model of light, also known as the photon model, describes light as a stream of discrete particles called photons. This model explains phenomena such as the photoelectric effect and the emission of light from atoms. The wave model is more suitable for explaining the behavior of light in certain situations, while the particle model is more suitable for explaining other phenomena.

  • Light is neither a particle nor a wave, but depending on the experiment it exhibits properties of either a wave or a particle. But what it really is, we do not know.

    Light is a complex phenomenon that exhibits both wave-like and particle-like properties. In some experiments, it behaves like a wave, showing interference and diffraction patterns, while in others, it behaves like a particle, interacting with matter in discrete packets of energy called photons. The true nature of light remains a mystery, and it is described by the wave-particle duality principle in quantum mechanics.

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