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📒Introduction To Condensed Matter Physics ✍ Duan Feng
✏Introduction to Condensed Matter Physics Book Summary : This is volume 1 of two-volume book that presents an excellent, comprehensive exposition of the multi-faceted subjects of modern condensed matter physics, unified within an original and coherent conceptual framework. Traditional subjects such as band theory and lattice dynamics are tightly organized in this framework, while many new developments emerge spontaneously from it. In this volume,? Basic concepts are emphasized; usually they are intuitively introduced, then more precisely formulated, and compared with correlated concepts.? A plethora of new topics, such as quasicrystals, photonic crystals, GMR, TMR, CMR, high Tc superconductors, Bose-Einstein condensation, etc., are presented with sharp physical insights.? Bond and band approaches are discussed in parallel, breaking the barrier between physics and chemistry.? A highly accessible chapter is included on correlated electronic states ? rarely found in an introductory text.? Introductory chapters on tunneling, mesoscopic phenomena, and quantum-confined nanostructures constitute a sound foundation for nanoscience and nanotechnology.? The text is profusely illustrated with about 500 figures.
📒A Brief Introduction To Topology And Differential Geometry In Condensed Matter Physics ✍ Antonio Sergio Teixeira Pires
✏A Brief Introduction to Topology and Differential Geometry in Condensed Matter Physics Book Summary : In the last years there have been great advances in the applications of topology and differential geometry to problems in condensed matter physics. Concepts drawn from topology and geometry have become essential to the understanding of several phenomena in the area. Physicists have been creative in producing models for actual physical phenomena which realize mathematically exotic concepts and new phases have been discovered in condensed matter in which topology plays a leading role. An important classification paradigm is the concept of topological order, where the state characterizing a system does not break any symmetry, but it defines a topological phase in the sense that certain fundamental properties change only when the system passes through a quantum phase transition. The main purpose of this book is to provide a brief, self-contained introduction to some mathematical ideas and methods from differential geometry and topology, and to show a few applications in condensed matter. It conveys to physicists the basis for many mathematical concepts, avoiding the detailed formality of most textbooks.
📒Fundamentals Of Condensed Matter And Crystalline Physics ✍ David L. Sidebottom
✏Fundamentals of Condensed Matter and Crystalline Physics Book Summary : This undergraduate textbook merges traditional solid state physics with contemporary condensed matter physics, providing an up-to-date introduction to the major concepts that form the foundations of condensed materials. The main foundational principles are emphasized, providing students with the knowledge beginners in the field should understand. The book is structured in four parts and allows students to appreciate how the concepts in this broad area build upon each other to produce a cohesive whole as they work through the chapters. Illustrations work closely with the text to convey concepts and ideas visually, enhancing student understanding of difficult material, and end-of-chapter exercises varying in difficulty allow students to put into practice the theory they have covered in each chapter and reinforce new concepts.
📒O Level Physics Mcqs ✍ Arshad Iqbal
✏O Level Physics MCQs Book Summary : O Level Physics Multiple Choice Questions and Answers pdf: MCQs, Quizzes & Practice Tests. O level physics quiz questions and answers pdf with practice tests for online exam prep and job interview prep. O level physics study guide with questions and answers about electromagnetic waves, energy, work and power, forces, general wave properties, heat capacity, kinematics, kinetic theory of particles, light, mass, weight and density, measurement of physical quantities, measurement of temperature, measurements, melting and boiling, pressure, properties and mechanics of matter, simple kinetic theory of matter, sound, speed, velocity and acceleration, temperature, thermal energy, thermal properties of matter, transfer of thermal energy, turning effects of forces, waves physics. O level physics questions and answers to get prepare for career placement tests and job interview prep with answers key. Practice exam questions and answers about physics, composed from O level physics textbooks on chapters: Electromagnetic Waves Multiple Choice Questions: 17 MCQs Energy, Work and Power Multiple Choice Questions: 89 MCQs Forces Multiple Choice Questions: 80 MCQs General Wave Properties Multiple Choice Questions: 16 MCQs Heat Capacity Multiple Choice Questions: 11 MCQs Kinematics Multiple Choice Questions: 30 MCQs Kinetic Theory of Particles Multiple Choice Questions: 47 MCQs Light Multiple Choice Questions: 45 MCQs Mass, Weight and Density Multiple Choice Questions: 39 MCQs Measurement of Physical Quantities Multiple Choice Questions: 6 MCQs Measurement of Temperature Multiple Choice Questions: 18 MCQs Measurements Multiple Choice Questions: 26 MCQs Melting and Boiling Multiple Choice Questions: 23 MCQs Pressure Multiple Choice Questions: 47 MCQs Properties and Mechanics of Matter Multiple Choice Questions: 7 MCQs Simple Kinetic Theory of Matter Multiple Choice Questions: 16 MCQs Sound Multiple Choice Questions: 16 MCQs Speed, Velocity and Acceleration Multiple Choice Questions: 7 MCQs Temperature Multiple Choice Questions: 99 MCQs Thermal Energy Multiple Choice Questions: 48 MCQs Thermal Properties of Matter Multiple Choice Questions: 140 MCQs Transfer of Thermal Energy Multiple Choice Questions: 10 MCQs Turning Effects of Forces Multiple Choice Questions: 37 MCQs Waves Physics Multiple Choice Questions: 22 MCQs O level physics interview questions and answers on acceleration free fall, acceleration of freefall, acceleration: o level physics, atmospheric pressure and weather, balanced forces and unbalanced forces, boiling and condensation, boiling point: o level physics, center of gravity and stability, center of gravity. O level physics test questions and answers on condensation, conduction, conduction, convection, converging lens, density: o level physics, displacement-time graph, distance, time and speed, effects of forces on motion, efficiency: o level physics, electromagnetic waves, energy and units, energy, work and power, energy: o level physics. O level physics exam questions and answers on evaporation, evidence of molecular motion, force, forces and effects, forces and motion, gravity, heat capacity: physics, heat capacity: water and air, hydraulic systems, inertia, mass and weight, introducing waves, introduction to forces, introduction to light, introduction to pressure, introduction to sound, introduction to waves, kinetic molecular model of matter. O level physics objective questions and answers on kinetic theory, latent heat, mass and weight, mass, weight and density, measurement of density, measurement of time, measuring atmospheric pressure, measuring temperature, measuring time, melting and solidification, meter rule and measuring tape, moments, o level online exam test, physical quantities and si unit, physics of light, physics of temperature, power, precision and range, pressure in gases, pressure in liquids, pressure, pressure of gases, pressure physics, principle of moment, properties of wave motion, radiation, rate of infrared radiations. O level physics certification questions on reflection, refraction, scalar and vector, scales of temperature, solid friction: viscosity, specific heat capacity, speed and velocity: physics, speed, velocity and acceleration, stability, states of matter, temperature scales, thermal energy, thermal energy transfer: applications, thermal energy transfer: physics, thermal properties, three processes of heat transfer, total internal reflection, transmission of sound, transverse and longitudinal waves, turning effects of forces conclusion, types of thermometers, velocity-time graph, wave production and ripple tank, what is temperature, work and energy, work, work, energy and power, for competitive exams preparation.
📒An Introduction To A Realistic Quantum Physics ✍ Giuliano Preparata
✏An Introduction to a Realistic Quantum Physics Book Summary : Dr. Preparata (d. 2000), a professor at an unspecified Italian university, was among the minority of theoretical physicists challenging the standard model of quantum field theory with a "more realistic" quark model of the elementary particles of matter. He argues his case in five lecture-type essays. An appendix overviews the underlying math and formal logic. Lacks an index. Annotation copyrighted by Book News, Inc., Portland, OR
📒From Atoms To Galaxies ✍ Sadri Hassani
✏From Atoms to Galaxies Book Summary : College students in the United States are becoming increasingly incapable of differentiating between proven facts delivered by scientific inquiry and the speculations of pseudoscience. In an effort to help stem this disturbing trend, From Atoms to Galaxies: A Conceptual Physics Approach to Scientific Awareness teaches heightened scientific acuity as it educates students about the physical world and gives them answers to questions large and small. Written by Sadri Hassani, the author of several mathematical physics textbooks, this work covers the essentials of modern physics, in a way that is as thorough as it is compelling and accessible. Some of you might want to know ... . . . How did Galileo come to think about the first law of motion? . . . Did Newton actually discover gravity by way of an apple and an accident? Or maybe you have mulled over... . . . Is it possible for Santa Claus to deliver all his toys? . . . Is it possible to prove that Elvis does not visit Graceland every midnight? Or perhaps you’ve even wondered ... . . . If ancient Taoism really parallels modern physics? . . . If psychoanalysis can actually be called a science? . . . How it is that some philosophies of science may imply that a 650-year-old woman can give birth to a child? No Advanced Mathematics Required A primary textbook for undergraduate students not majoring in physics, From Atoms to Galaxies examines physical laws and their consequences from a conceptual perspective that requires no advanced mathematics. It explains quantum physics, relativity, nuclear and particle physics, gauge theory, quantum field theory, quarks and leptons, and cosmology. Encouraging students to subscribe to proven causation rather than dramatic speculation, the book: Defines the often obscured difference between science and technology, discussing how this confusion taints both common culture and academic rigor Explores the various philosophies of science, demonstrating how errors in our understanding of scientific principles can adversely impact scientific awareness Exposes how pseudoscience and New Age mysticism advance unproven conjectures as dangerous alternatives to proven science Based on courses taught by the author for over 15 years, this textbook has been developed to raise the scientific awareness of the untrained reader who lacks a technical or mathematical background. To accomplish this, the book lays the foundation of the laws that govern our universe in a nontechnical way, emphasizing topics that excite the mind, namely those taken from modern physics, and exposing the abuses made of them by the New Age gurus and other mystagogues. It outlines the methods developed by physicists for the scientific investigation of nature, and contrasts them with those developed by the outsiders who claim to be the owners of scientific methodology. Each chapter includes essays, which use the material developed in that chapter to debunk misconceptions, clarify the nature of science, and explore the history of physics as it relates to the development of ideas. Noting the damage incurred by confusing science and technology, the book strives to help the reader to emphatically demarcate the two, while clearly demonstrating that science is the only element capable of advancing technology.
📒Physics A Conceptual World View ✍ Larry Kirkpatrick
✏Physics A Conceptual World View Book Summary : Designed specifically for non-majors, PHYSICS: A CONCEPTUAL WORLD VIEW provides an engaging and effective introduction to physics using a flexible, fully modular presentation ideal for a wide variety of instructors and courses. Incorporating highly effective Physics Education Research pedagogy, the text features an ongoing storyline describing the development of the current physics world view, which provides students with an understanding of the laws of nature and the context to better appreciate the importance of physics. The text's appealing style and minimal use of math also help to make complex material interesting and easier to master, even for students intimidated by physics or math.For instructors who want to incorporate more problem-solving skills and quantitative reasoning, the optional, more detailed, Problem Solving to Accompany PHYSICS: A CONCEPTUAL WORLD VIEW student supplement reveals more of the beauty and power of mathematics in physics. The text can also be customized to fit any syllabus through Cengage Learning's TextChoice custom solution program. In addition, the new Seventh Edition includes a thoroughly revised art program featuring elements such as balloon captions and numerous illustrations to help students better visualize and understand key concepts. Important Notice: Media content referenced within the product description or the product text may not be available in the ebook version.
📒Introduction To Solid State Physics Second Edition ✍ KUMAR, ARUN
✏INTRODUCTION TO SOLID STATE PHYSICS Second Edition Book Summary : Introduction to Solid State Physics, in its Second Edition, provides a comprehensive introduction to the physical properties of crystalline solids. It explains the structure of crystals, theory of crystal diffraction and the reciprocal lattice. As the book advances, it describes different kinds of imperfections in crystals, bonding in solids, and vibration in one-dimensional monoatomic and diatomic linear lattice. Different theories of specific heat, thermal conductivity of solids and lattice thermal conductivity are thoroughly dealt with. Coverage also includes the free electron theory, band theory of solids and semiconductors. In addition, the book also describes in detail the magnetic properties of solids and superconductivity. Finally, the book includes discussions on lasers, nanotechnology and the basic principles of fibre optics and holography. Some new topics like cellular method, quantum Hall effect, de Haas van Alphen effect, Pauli paramagnetism and semiconductor laser have been added in the present edition of the book to make it more useful for the students. The book is designed to meet the requirements of undergraduate and postgraduate students of physics for their courses in solid state physics, condensed matter physics and material science. KEY FEATURES • Puts a conceptual emphasis on the subject. • Includes numerous diagrams and figures to clarify the concepts. • Gives step-by-step explanations of theories. • Provides chapter-end exercises to test the knowledge acquired.
📒Introduction To Modern Physics ✍ R. B. Singh
✏Introduction To Modern Physics Book Summary : The Book Presents A Comprehensive Treatment Of Quantum Mechanics At The Post Graduate Level. The Emphasis Is On The Physical Foundations And The Mathematical Framework Of Quantum Mechanics; Applications To Specific Problems Are Taken Up Only To Illustrate A Principle Or A Calculational Technique Under Discussion. The Book Begins With A Preview Of The Conceptual Problem Peculiar To Quantum Mechanics. The Introductory Chapter Also Contains A Formulation Of The Basic Laws Of Motion In Quantum Mechanics In Terms Of The Feynman Postulates. Chapter 2 Contains A Detailed Exposition Of The Linear Vector Spaces And Representation Theory. In Chapter 3 The Basic Principles Of Quantum Mechanics Are Introduced In The Form Of A Number Of Postulates.The Schrodinger, The Heisenberg And The Interaction Pictures Of Time Development Form The Subject Matter Of Chapter 4. An Indepth Study Of Angular Momentum Theory (Chapter 5) Is Followed By A Brief Account Of Space-Time Symmetries Including Time Reversal Invariance (Chapter 6). Scattering Theory (Chapter 7), Approximation Methods For Stationary As Well As Time-Dependent Problems (Chapter 8) And Identical Particles (Chapter 9) Receive Adequate Treatment. The Dirac, The Klein-Gordon And The Weyl Equations Are Discussed Extensively In Chapter 10. Chapter 11 Treats Canonical Quantization Of Both Non- Relativistic And Relativistic Fields; Topics Covered Include The Natural System Of Units, The Dyson And The Wick Chronological Products, Normal Products, Wicks Theorem And The Feynman Diagrams. The Last Chapter (12) Discusses In Detail The Interpretational Problem In Quantum Mechanics. The Epr Paradox, The Copenhagen And The Ensemble Interpretations, Hidden-Variable Theories,Neumanns And Bell S Theorems And Bells Inequality Are Among The Topics Discussed. The Appendices Incorporate A Detailed Discussion Of Matrices Both Finite-And-Infinite Dimensional, Antilinear Operators, Dirac Delta Function And Fourier Transforms. A Number Of Problems Are Included With A View To Supplementing The Text.
📒Introduction To Polymer Physics ✍ Masao Doi
✏Introduction to Polymer Physics Book Summary : A concise textbook, providing an introduction to the modern theory of polymer physics for the graduate student. Clearly written, it describes basic concepts and methods to discuss the statistical properties of the assembly of chain-like molecules. Covering both equilibrium and nonequilibrium properties this text is suitable for short courses on polymer physics.