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  • Theory Test, Practical Test & Highway Code : AA Driving Books
    Theory Test, Practical Test & Highway Code : AA Driving Books

    Pass your driving test with ease with this comprehensive guide that gives learner drivers the essential information they need to pass both the Theory Test and Practical Test first time.The AA has an excellent track record with driving test titles and is one of the biggest sellers of books in the genre.The Theory Test, Practical Test & Highway Code features all the official revision theory test questions for car drivers, hundreds of practical test questions set by experts from the AA Driving School and the latest edition of the Highway Code – essential reading for all road users.Explanatory text is included to help learner drivers understand what’s required for every revision question. The Theory Test, Practical Test & Highway Code’s clear and concise layout makes it easy to revise and is a must buy for anyone learning to drive.

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  • AA Theory Test & Highway Code
    AA Theory Test & Highway Code

    Pass your driving test with ease using this comprehensive guide that gives learner drivers the information they need to pass all elements of the driving theory test.The AA has an excellent track record with driving test titles and is one of the biggest sellers of books in the genre. The Theory Test and The Highway Code features all the recommended revision theory test questions for car drivers and the latest edition of the Highway Code. Explanatory text is included to help learner drivers understand what's required for every revision question.The clear and concise layout makes it easy to revise and the book features guidance from AA experts on tackling the questions and key advice on what to expect in each part of the test. The Theory Test and The Highway Code is essential reading for every learner driver.

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  • Quantum Theory
    Quantum Theory


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  • Quantum Field Theory
    Quantum Field Theory


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  • Why are quantum mechanics and relativity theory incompatible?

    Quantum mechanics and relativity theory are incompatible because they are based on fundamentally different principles and assumptions about the nature of the universe. Quantum mechanics describes the behavior of particles at the smallest scales, where probabilities and uncertainties play a significant role, while relativity theory describes the behavior of objects at large scales, where gravity and spacetime curvature are important. These two theories have not yet been successfully unified into a single framework, leading to inconsistencies and contradictions when trying to apply them together in certain situations. Efforts to develop a theory of quantum gravity, which would reconcile these two theories, are ongoing in the field of theoretical physics.

  • Is quantum mechanics a subfield of quantum physics?

    Yes, quantum mechanics is a subfield of quantum physics. Quantum physics is a broad field that encompasses the study of the behavior of matter and energy at the quantum level, while quantum mechanics specifically focuses on the mathematical framework and principles that describe the behavior of particles and waves at the quantum level. Quantum mechanics is a fundamental theory within the broader field of quantum physics, providing the foundation for understanding the behavior of particles and systems at the quantum scale.

  • Why is there no complete theory of quantum gravity?

    There is no complete theory of quantum gravity because it is a challenging task to reconcile the principles of quantum mechanics with those of general relativity. Quantum mechanics describes the behavior of particles at the smallest scales, while general relativity explains the behavior of gravity at the largest scales. Combining these two theories into a single framework has proven to be difficult, and physicists are still working on developing a consistent and complete theory of quantum gravity. Additionally, the extreme conditions such as those found in the early universe or near black holes, where both quantum effects and gravity are important, make it even more challenging to develop a complete theory.

  • What is the difference between quantum physics and quantum mechanics?

    Quantum physics is a broad field of study that encompasses the fundamental principles and phenomena of the quantum world, including the behavior of particles at the atomic and subatomic levels. Quantum mechanics, on the other hand, is a specific branch of physics that focuses on the mathematical framework and formalism used to describe the behavior of particles at the quantum level. In other words, quantum physics is the broader study of the quantum world, while quantum mechanics is the specific set of principles and mathematical tools used to understand and describe it.

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  • Quantum Field Theory
    Quantum Field Theory

    Following on from the successful first (1984) and revised (1993) editions, this extended and revised text is designed as a short and simple introduction to quantum field theory for final year physics students and for postgraduate students beginning research in theoretical and experimental particle physics. The three main objectives of the book are to: Explain the basic physics and formalism of quantum field theory To make the reader proficient in theory calculations using Feynman diagrams To introduce the reader to gauge theories, which play a central role in elementary particle physics. Thus, the first ten chapters deal with QED in the canonical formalism, and are little changed from the first edition.A brief introduction to gauge theories (Chapter 11) is then followed by two sections, which may be read independently of each other.They cover QCD and related topics (Chapters 12-15) and the unified electroweak theory (Chapters 16 - 19) respectively.Problems are provided at the end of each chapter. New to this edition: Five new chapters, giving an introduction to quantum chromodynamics and the methods used to understand it: in particular, path integrals and the renormalization group. The treatment of electroweak interactions has been revised and updated to take account of more recent experiments.

    Price: 118.95 £ | Shipping*: 0.00 £
  • Quantum Field Theory
    Quantum Field Theory

    Following on from the successful first (1984) and revised (1993) editions, this extended and revised text is designed as a short and simple introduction to quantum field theory for final year physics students and for postgraduate students beginning research in theoretical and experimental particle physics. The three main objectives of the book are to: Explain the basic physics and formalism of quantum field theory To make the reader proficient in theory calculations using Feynman diagrams To introduce the reader to gauge theories, which play a central role in elementary particle physics. Thus, the first ten chapters deal with QED in the canonical formalism, and are little changed from the first edition.A brief introduction to gauge theories (Chapter 11) is then followed by two sections, which may be read independently of each other.They cover QCD and related topics (Chapters 12-15) and the unified electroweak theory (Chapters 16 - 19) respectively.Problems are provided at the end of each chapter. New to this edition: Five new chapters, giving an introduction to quantum chromodynamics and the methods used to understand it: in particular, path integrals and the renormalization group. The treatment of electroweak interactions has been revised and updated to take account of more recent experiments.

    Price: 41.95 £ | Shipping*: 0.00 £
  • Modern Quantum Theory : From Quantum Mechanics to Entanglement and Quantum Information
    Modern Quantum Theory : From Quantum Mechanics to Entanglement and Quantum Information

    In the last few decades quantum theory has experienced an extensive revival owing to the rapid development of quantum information and quantum technologies.Based on a series of courses taught by the authors, the book takes the reader on a journey from the beginnings of quantum theory in the early twentieth century to the realm of quantum-information processing in the twenty-first.The central aim of this textbook, therefore, is to offer a detailed introduction to quantum theory that covers both physical and information-theoretic aspects, with a particular focus on the concept of entanglement and its characteristics, variants, and applications.Suitable for undergraduate students in physics and related subjects who encounter quantum mechanics for the first time, this book also serves as a resource for graduate students who want to engage with more advanced topics, offering a collection of derivations, proofs, technical methods, and references for graduate students and more experienced readers engaged with teaching and active research. The book is divided into three parts: Part I - Quantum Mechanics, Part II - Entanglement and Non-Locality, and Part III - Advanced Topics in Modern Quantum Physics.Part I provides a modern view on quantum mechanics, a central topic of theoretical physics.Part II is dedicated to the foundations of quantum mechanics and entanglement: starting with density operators, hidden-variable theories, the Einstein-Podolsky-Rosen Paradox, and Bell Inequalities, but also touching upon philosophical questions, followed by a deeper study of entanglement-based quantum communication protocols like teleportation, before giving a detailed exposition of entanglement theory, including tools for the detection and quantification of entanglement.Part III is intended as a collection of standalone chapters to supplement the contents of Parts I and II, covering more advanced topics such as classical and quantum entropies, quantum operations and measurements, decoherence, quantum metrology and quantum optics, and entanglement in particle physics.

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  • Quantum Theory (Concise Edition)
    Quantum Theory (Concise Edition)

    A concise, uncluttered edition for the modern reader, with a new introduction.Quantum Theory contains two foundational works of quantum research from the early years of the 20th Century, representing breakthroughs in science that radically altered the landscape of modern knowledge: Quantum Theory of Line-Spectra by Niels Bohr and The Origin and Development of the Quantum Theory by Max Planck. The FLAME TREE Foundations series features core publications which together have shaped the cultural landscape of the modern world, with cutting-edge research distilled into pocket guides designed to be both accessible and informative.

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  • What is the difference between quantum mechanics and quantum physics?

    Quantum mechanics and quantum physics are often used interchangeably, but there is a subtle difference between the two terms. Quantum mechanics is a specific branch of physics that deals with the mathematical description of the behavior of particles at the atomic and subatomic levels. On the other hand, quantum physics is a broader term that encompasses the study of the behavior of matter and energy at the quantum level, including quantum mechanics as well as other related fields such as quantum field theory and quantum electrodynamics. In essence, quantum mechanics is a subset of quantum physics, focusing specifically on the mathematical framework for understanding the behavior of particles at the quantum level.

  • Is there a difference between quantum physics and quantum mechanics?

    Quantum physics and quantum mechanics are often used interchangeably, but there is a subtle difference between the two. Quantum physics is a broader field that encompasses the study of the behavior of matter and energy at the quantum level, including quantum mechanics. Quantum mechanics, on the other hand, specifically refers to the mathematical framework and principles that describe the behavior of particles at the quantum level. In essence, quantum mechanics is a subset of quantum physics, focusing on the mathematical and theoretical aspects of quantum phenomena.

  • What is the difference between quantum mechanics and relativity theory?

    Quantum mechanics and relativity theory are two fundamental theories in physics that describe the behavior of the universe at different scales. Quantum mechanics deals with the behavior of particles at the atomic and subatomic level, while relativity theory describes the behavior of objects at very high speeds and in strong gravitational fields. One key difference between the two theories is that quantum mechanics is based on the concept of discrete, quantized values (such as energy levels and particle properties), while relativity theory is based on the concept of continuous, smooth spacetime. Additionally, quantum mechanics is a probabilistic theory, meaning that it describes the behavior of particles in terms of probabilities, while relativity theory is deterministic, meaning that it describes the behavior of objects in a definite and predictable manner.

  • What is quantum entanglement?

    Quantum entanglement is a phenomenon in quantum physics where two or more particles become connected in such a way that the state of one particle is dependent on the state of the other, regardless of the distance between them. This means that measuring the state of one particle instantly determines the state of the other, even if they are light-years apart. This mysterious connection defies classical physics and has been described by Albert Einstein as "spooky action at a distance." Quantum entanglement is a key principle in quantum mechanics and has potential applications in quantum computing and cryptography.

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