Introductory Physics
This book is a very useful study guide for students in introductory physics courses, particularly high school and college students in an algebra-based introductory physics course, and even students in an introductory calculus-level course.
Radioactive Waste from Nuclear Power Plants
This title is part of UC Press's Voices Revived program, which commemorates University of California Press's mission to seek out and cultivate the brightest minds and give them voice, reach, and impact. Drawing on a backlist dating to 1893, Voices Revived makes high-quality, peer-reviewed scholarship accessible once again using print-on-demand technology. This title was originally published in 1981.
Effective Field Theories
Effective field theories are a widely used tool in various branches of physics. This book provides a comprehensive discussion of the foundations and fundamentals of effective field theories of quantum chromodynamics (QCD) in the light quark sector with an emphasis on the study of flavour symmetries and their realizations. In this context, different types of effective field theories pertaining to various energy scales are considered and selected applications are devised. It also covers the formulation of effective field theories in a finite volume and its application in the analysis of lattice QCD data. Effective Field Theories is intended for graduate students and researchers in particle physics, hadron physics and nuclear physics. Exercises are included to help the reader deepen their understanding of the topics discussed throughout, with solutions available to lecturers.
Radioactive Waste from Nuclear Power Plants
This title is part of UC Press's Voices Revived program, which commemorates University of California Press's mission to seek out and cultivate the brightest minds and give them voice, reach, and impact. Drawing on a backlist dating to 1893, Voices Revived makes high-quality, peer-reviewed scholarship accessible once again using print-on-demand technology. This title was originally published in 1981.
Arabic Astronomical and Astrological Sciences in Latin Translation
This book offers a comprehensive examination of the transmission of Arabic scientific knowledge, especially in astronomy and astrology, to Latin-speaking Europe. This bibliography aims to present existing translations, manuscripts, and printed editions of significant Arabic works and outlines the progress and remaining gaps in understanding how medieval scholars engaged with and interpreted Arabic science. The work draws on foundational efforts, including Sarton's Introduction to the History of Science, Thorndike's History of Magic and Experimental Science, and Brockelmann's bibliographies, extending these by closely analyzing manuscripts and translations that were pivotal in the transmission of astronomical and astrological knowledge. The bibliography meticulously classifies texts by author, noting multiple versions and sometimes contested attributions, while providing details such as incipits, explicits, and dedications to aid identification and comparison. Focusing on Latin translations, the work underscores how figures like Gerard of Cremona and John of Seville contributed to medieval scholarship by rendering Arabic texts accessible, often improving on or modifying the originals to fit Western scholastic paradigms. It addresses critical methodological concerns, such as inconsistencies in manuscript catalogs and the challenges posed by anonymous or erroneously attributed works. Ultimately, this bibliography serves as a valuable tool for further research, laying groundwork for future philological studies on the evolution of scientific thought from the Islamic world to medieval Europe. This title is part of UC Press's Voices Revived program, which commemorates University of California Press's mission to seek out and cultivate the brightest minds and give them voice, reach, and impact. Drawing on a backlist dating to 1893, Voices Revived makes high-quality, peer-reviewed scholarship accessible once again using print-on-demand technology. This title was originally published in 1955.
Introduction to Detonation Theory
This title is part of UC Press's Voices Revived program, which commemorates University of California Press's mission to seek out and cultivate the brightest minds and give them voice, reach, and impact. Drawing on a backlist dating to 1893, Voices Revived makes high-quality, peer-reviewed scholarship accessible once again using print-on-demand technology. This title was originally published in 1985.
Multi-Scale (Time and Mass) Dynamics of Space Objects (Iau S364)
The range of phenomena that manifest at all different time and length scales and the wide range of sizes of space objects, from minor bodies in the Solar System to exoplanets, and from dust particles to Jupiter-size bodies, require the development of dynamical modeling and analysis tools that can handle these different scales. This volume collects contributions given by distinguished scientists at the hybrid IAU Symposium 364. The methods in dynamics modeling of space objects have already reached a state of maturity, and their implementation provided a large number of important results pertaining to both the theory and their applications. The contributions cover the recent advances in the multi-scale dynamics of natural and artificial space objects from various perspectives, which will benefit graduate students and researchers working in the fields of celestial mechanics, astrodynamics, planetary sciences, applied mathematics and dynamical systems.
Covid-19
Preface Part I - The Science Behind History of the corona viruses Structure of the virus Diagnosis methods Therapeutics and medications Vaccination types and techniques Part II - The Social Impact Pandemic crisis and global security WHO and risk management Governmental policies Post-corona life
Magnetic Phase Transitions in Single Crystals
Magnetic crystals are ideal systems to study the universal properties of phase transitions, particularly systems with quenched randomness and frustration. Pure systems with different symmetries provide the foundation for studies in corresponding systems with quenched randomness. Because phenomena near phase transitions have universal properties, results from bulk magnetic crystals provide a basis for understanding phase transitions in films and nanoparticles, as well as many non-magnetic materials.This motivates the subject of this book, which discusses phase transitions studies in magnetic crystals from the perspective of an experimentalist who has done extensive work in the field. The advantage is that many experimental techniques are described in sufficient detail for a good understanding of the results and their comparison to theory.
Space Oddities
Nothing captivates the human imagination like the vast unknowns of space. Ancient petroglyphs present renderings of the heavens, proof that we have been gazing up at the stars with wonder for thousands of years. Since then, mankind has systematically expanded our cosmic possibilities. What were once flights of fancy and dreams of science fiction writers have become nearly routine - a continuous human presence orbiting the Earth, probes flying beyond our solar system, and men walking on the moon. NASA and the Russian space program make traveling to the stars look easy, but it has been far from that. Space travel is a sometimes heroic, sometimes humorous, and always dangerous journey fraught with perils around every corner that most of us have never heard of or have long since forgotten. Space Oddities brings these unknown, offbeat, and obscure stories of space to life. From the showmanship and bravado of the earliest known space fatality, German Max Valier, to the first ever indictment under the Espionage Act on an Army officer who leaked secrets concerning the development of early U.S. rockets; and the story of a single loose bolt that defeated the Soviet Union's attempt to beat America to the moon. Author Joe Cuhaj also sheds light on the human aspects of space travel that have remained industry secrets - until now: how the tradition of using a musical playlist to wake astronauts up began, fascinating tales about inventions like the Fischer Space Pen, Omega watches, and even Tang breakfast drink. In addition to fun and entertaining space trivia, Space Oddities also features stories of the profound impact that space travel has had on challenges right here at home, like the effort by civil rights leaders and activists in the 1960s to bring the money from the space program back home to those in need on Earth; NASA's FLATs (First Lady Astronaut Training) program and the 13 women who were selected to become astronauts in 1960, but were denied a chance at flying even after successfully completing the rigorous astronaut training program; and, the animals who many times sacrificed their lives to prove that man could fly in space.Filled with rare and little-known stories, Space Oddities will bring the final frontier to the homes of diehard space readers and armchair astronauts alike.
The Little Book of Exoplanets
A concise and accessible introduction to exoplanets that explains the cutting-edge science behind recent discoveries For centuries, people have speculated about the possibility of planets orbiting distant stars, but only since the 1990s has technology allowed astronomers to detect them. At this point, more than five thousand such exoplanets have been identified, with the pace of discovery accelerating after the launch of NASA's Transiting Exoplanet Survey Satellite and the Webb Space Telescope. In The Little Book of Exoplanets, Princeton astrophysicist Joshua Winn offers a brief and engaging introduction to the search for exoplanets and the cutting-edge science behind recent findings. In doing so, he chronicles the dawn of a new age of discovery--one that has rapidly transformed astronomy and our broader understanding of the universe. Scientists now know that many Sun-like stars host their own systems of planets, some of which may resemble our solar system and include planets similar to the Earth. But, Winn tells us, the most remarkable discoveries so far have been of planets with unexpected and decidedly un-Earth-like properties, which have upended what we thought we knew about the origins of planetary systems. Winn provides an inside view of the sophisticated detective work astronomers perform as they find and study exoplanets and describes the surprising--sometimes downright bizarre--planets and systems they have found. He explains how these discoveries are revolutionizing astronomy, and he explores the current status and possible future of the search for another Earth. Finally, drawing on his own and other scientists' work, he considers how the discovery of exoplanets and their faraway solar systems changes our perspectives on the universe and our place in it.
Studies in Theoretical Physics, Volume 1
Studies in Theoretical Physics, Volume 1: Fundamental mathematical methods is the first of the six-volume series in theoretical physics. It provides the mathematical methods that any physical sciences and engineering undergraduate might need in upper-division courses in classical mechanics, quantum mechanics, and electricity and magnetism. It is a book designed for a two-semester course in Mathematical Methods. The first eight chapters introduce series and sequences, complex numbers, functions and series, vectors, matrices and determinants, and differential and integral calculus of scalar and vector functions, suitable for the first semester of a two-semester sequence. The last eight chapters introduce the calculus of variations, linear algebra, power series substitution method for solving differential equations, partial differential equations, contour integrals, Laplace transforms, Fourier series, and Fourier transforms, suitable for the second semester. Unlike other books, this book has a section at the end of each chapter that focuses on solving problems using Mathematica.Key Features All selected topics provide the mathematical methods students would need in Classical Mechanics, Electricity and Magnetism, and Quantum Mechanics at the undergraduate level. Modern 3D graphics are extensively used for 3D visualization and a better understanding of the topics covered and the example problems used. Examples are selected to cover the applications in the subsequent volumes of Studies in Theoretical Physics. Topics covered in sixteen chapters are intended for a two-semester sequence of undergraduate courses in Mathematical Methods. Each chapter also introduces Mathematica to the topics covered by re-solving most of the example problems considered in each chapter. Discussions are clear, brief, concise, and use simple English easy to understand by readers with English as a second language. The authors of this book have years of experience teaching many introductory and upper-division physics courses.
Introducing Einstein’s Relativity
There is little doubt that Einstein's theory of relativity captures the imagination. Not only has it radically altered the way we view the universe, but the theory also has a considerable number of surprises in store. This is especially so in the three main topics of current interest that this book reaches, namely: black holes, gravitational waves, and cosmology. The main aim of this textbook is to provide students with a sound mathematical introduction coupled to an understanding of the physical insights needed to explore the subject. Indeed, the book follows Einstein in that it introduces the theory very much from a physical point of view. After introducing the special theory of relativity, the basic field equations of gravitation are derived and discussed carefully as a prelude to first solving them in simple cases and then exploring the three main areas of application. This new edition contains a substantial extension content that considers new and updated developments in the field. Topics include coverage of the advancement of observational cosmology, the detection of gravitational waves from colliding black holes and neutron stars, and advancements in modern cosmology. Einstein's theory of relativity is undoubtedly one of the greatest achievements of the human mind. Yet, in this book, the author makes it possible for students with a wide range of abilities to deal confidently with the subject. Based on both authors' experience teaching the subject this is achieved by breaking down the main arguments into a series of simple logical steps. Full details are provided in the text and the numerous exercises while additional insight is provided through the numerous diagrams. As a result this book makes an excellent course for any reader coming to the subject for the first time while providing a thorough understanding for any student wanting to go on to study the subject in depth
The Origin of Outflows in Evolved Stars (Iau S366)
The prime parameter determining the evolution of a star is its mass. Any modification to the stellar mass has large repercussions on its evolutionary path. Both low-mass and massive stars are known to power strong stellar winds at the end of their lives. These winds determine the type of the stellar end product and the amount by which these stars contribute to the chemical enrichment of the interstellar medium, ultimately providing the building blocks of planets and life. A proper understanding of stellar evolution and the building blocks in the Universe cannot be achieved without a detailed understanding of stellar winds. IAU Symposium 366 provides an overview of state-of-the-art observational and theoretical studies on the origin of winds in low-mass and massive evolved stars, with topics including binarity, enrichment of the interstellar medium, astrochemistry, and theoretical, observational and numerical constraints on stellar outflows.
Chiral Matter - Proceedings of the Nobel Symposium 167
A geometric figure has chirality, or handedness, if its mirror image cannot be brought to coincide with itself. The concept of chirality was instrumental in establishing the tetrahedral valences of the carbon atom, and has continued to play a key role in chemistry and molecular biology ever since.The fact that living organisms use only one of two mirror isomers of such molecules as amino acids and sugars, that is, the question of the origin of homochirality of the molecular basis of life, remains an unsolved problem of the same dignity as the origin of dark matter and dark energy.The increasing importance of chirality and topology in condensed matter physics and chemistry, and the production of new states of matter in heavy-ion collisions, have brought the concept of chirality into physics and cosmology in a tangible way while at the same time expanded the physics/chemistry interface. The book is the first to address all aspects of chirality in a single volume.
Life Comes from Space: The Decisive Evidence
With the rapid growth of new evidence from astronomy, space science and biology that supports the theory of life as a cosmic rather than terrestrial phenomenon, this book discusses a set of crucial data and pictures showing that life is still arriving at our planet. Although it could spark controversy among the most hardened sceptics this book will have an important role in shaping future science in this area.
Spin Waves
This book presents a collection of problems in spin wave excitations with their detailed solutions. Each chapter briefly introduces the important concepts, encouraging the reader to further explore the physics of spin wave excitations and the engineering of spin wave devices by working through the accompanying problem sets. The initial chapters cover the fundamental aspects of magnetization, with its origins in quantum mechanics, followed by chapters on spin wave excitations, such as the magnetostatic approximation, Walker's equation, the spin wave manifold in the three different excitation geometries of forward volume, backward volume and surface waves, and the dispersion of spin waves. The latter chapters focus on the practical aspects of spin waves and spin wave optical devices and use the problem sets to introduce concepts such as variational analysis and coupled mode theory. Finally, for the more advanced reader, the book covers nonlinear interactions and topics such as spin wavequantization, spin torque excitations, and the inverse Doppler effect. The topics range in difficulty from elementary to advanced. All problems are solved in detail and the reader is encouraged to develop an understanding of spin wave excitations and spin wave devices while also strengthening their mathematical, analytical, and numerical programming skills.
The Principles of Deep Learning Theory
This textbook establishes a theoretical framework for understanding deep learning models of practical relevance. With an approach that borrows from theoretical physics, Roberts and Yaida provide clear and pedagogical explanations of how realistic deep neural networks actually work. To make results from the theoretical forefront accessible, the authors eschew the subject's traditional emphasis on intimidating formality without sacrificing accuracy. Straightforward and approachable, this volume balances detailed first-principle derivations of novel results with insight and intuition for theorists and practitioners alike. This self-contained textbook is ideal for students and researchers interested in artificial intelligence with minimal prerequisites of linear algebra, calculus, and informal probability theory, and it can easily fill a semester-long course on deep learning theory. For the first time, the exciting practical advances in modern artificial intelligence capabilities can be matched with a set of effective principles, providing a timeless blueprint for theoretical research in deep learning.
New-Technology Flowmeters
The book describes the origin, principle of operation, development, advantages and disadvantages, applications, and frontiers of research for new-technology flowmeters: Coriolis, magnetic, ultrasonic, vortex, and thermal. It focuses on the newer, faster growing flowmeter markets, while placing them in the context of more traditional meters.
Merging Optimization and Control in Power Systems
Merging Optimization and Control in Power Systems A novel exploration of distributed control in power systems with insightful discussions of physical and cyber restrictions In Merging Optimization and Control in Power Systems an accomplished team of engineers deliver a comprehensive introduction to distributed optimal control in power systems. The book re-imagines control design within the framework of cyber-physical systems with restrictions in both the physical and cyber spaces, addressing operational constraints, non-smooth objective functions, rapid power fluctuations caused by renewable generations, partial control coverage, communication delays, and non-identical sampling rates. This book bridges the gap between optimization and control in two ways. First, optimization-based feedback control is explored. The authors describe feedback controllers which automatically drive system states asymptotically to specific, desired optimal working points. Second, the book discusses feedback-based optimization. Leveraging the philosophy of feedback control, the authors envision the online solving of complicated optimization and control problems of power systems to adapt to time-varying environments. Readers will also find: A thorough argument against the traditional and centralized hierarchy of power system control in favor of the merged approach described in the book Comprehensive explorations of the fundamental changes gripping the power system today, including the increasing penetration of renewable and distributed generation, the proliferation of electric vehicles, and increases in load demand Data, tables, illustrations, and case studies covering realistic power systems and experiments In-depth examinations of physical and cyber restrictions, as well as the robustness and adaptability of the proposed model Perfect for postgraduate students and researchers with the prerequisite knowledge of power system analysis, operation, and dynamics, convex optimization theory, and control theory, Merging Optimization and Control in Power Systems is an advanced and timely treatment of distributed optimal controller design.
Thermal Radiation
Thermal Radiation: An Introduction is a complete textbook for a one-semester introductory graduate course on radiative energy transfer. It bridges the gap between a basic introduction and comprehensive coverage of thermal radiation, focusing on insight into radiative transfer as practiced by engineers. Covering radiative transfer among surfaces, with an introduction to the effects of participating media between surfaces, the book includes surface and medium property characteristics and solutions to the radiative transfer equation in simple geometries. Tailored and organized specifically to suit a one-semester graduate course in radiative heat transfer Emphasis is placed on insight into radiative transfer as practiced by engineers Discusses how radiation is incorporated into finite element analysis (FEA) codes The textbook is intended for instructors and graduate students in a first-year course on radiative heat transfer or advanced heat transfer. Supplementary resources for students and instructors are available online.
Embedded Control for Mobile Robotic Applications
An all-in-one resource for designing and implementing embedded control in mobile robotics In Embedded Control for Mobile Robotic Applications, a distinguished trio of researchers delivers an authoritative and fulsome resource for understanding embedded control and robotics. The book includes coverage of a variety of embedded platforms, their use in controller implementation, stability analyses of designed controllers, and two new approaches for designing embedded controllers. The authors offer a full chapter on Field-Programmable-Gate-Array (FPGA) architecture development for controller design that is perfect for both practitioners and students taking robotics courses and provide a companion website that includes MATLAB codes for simulation and embedded platform-specific code for mobile robotic applications (in Embedded C and Verilog). The two approaches discussed by the authors--the top-down methodology and the bottom-up methodology--are of immediate practical utility to both practicing professionals in the field and students studying control applications and mobile robotics. The book also offers: A thorough introduction to embedded control, including processor, IC, and design technology, as well as a discussion of limitations in embedded control design Comprehensive explorations of the bottom-up and top-down methods, including computations using CORDIC, interval arithmetic, sliding surface design, and switched nonlinear systems Practical discussions of generic FPGA architecture design, including Verilog, PID controllers, DC motors and Encoder, and a systematic approach for designing architecture using FSMD In-depth examinations of discrete-time controller design, including the approximation to discrete-time transfer function and embedded implementation stability Perfect for practitioners working in embedded control design and control applications in robotics, Embedded Control for Mobile Robotic Applications will also earn a place in the libraries of academicians, researchers, senior undergraduate students, and graduate students in these fields.
Existential Physics
A NEW YORK TIMES BESTSELLER "An informed and entertaining guide to what science can and cannot tell us." --The Wall Street Journal "Stimulating . . . encourage[s] readers to push past well-trod assumptions [...] and have fun doing so." --Science Magazine From renowned physicist and creator of the YouTube series "Science without the Gobbledygook," a book that takes a no-nonsense approach to life's biggest questions, and wrestles with what physics really says about the human condition Not only can we not currently explain the origin of the universe, it is questionable we will ever be able to explain it. The notion that there are universes within particles, or that particles are conscious, is ascientific, as is the hypothesis that our universe is a computer simulation. On the other hand, the idea that the universe itself is conscious is difficult to rule out entirely. According to Sabine Hossenfelder, it is not a coincidence that quantum entanglement and vacuum energy have become the go-to explanations of alternative healers, or that people believe their deceased grandmother is still alive because of quantum mechanics. Science and religion have the same roots, and they still tackle some of the same questions: Where do we come from? Where do we go to? How much can we know? The area of science that is closest to answering these questions is physics. Over the last century, physicists have learned a lot about which spiritual ideas are still compatible with the laws of nature. Not always, though, have they stayed on the scientific side of the debate. In this lively, thought-provoking book, Hossenfelder takes on the biggest questions in physics: Does the past still exist? Do particles think? Was the universe made for us? Has physics ruled out free will? Will we ever have a theory of everything? She lays out how far physicists are on the way to answering these questions, where the current limits are, and what questions might well remain unanswerable forever. Her book offers a no-nonsense yet entertaining take on some of the toughest riddles in existence, and will give the reader a solid grasp on what we know--and what we don't know.
Experimental Gravitation
This book features a comprehensive review of experimental gravitation. It is a textbook based on the graduate courses on "Experimental Gravitation" given by the authors at their respective universities in Rome: Sapienza and Tor Vergata. A number of different research topics in the field are covered: from the torsion pendulum (still today the tool of choice for measuring small forces or torques) to the large interferometers developed to observe gravitational waves. Techniques that are still under development are also discussed, like the pulsar timing array and space-based detectors of the future. This book is written by experimentalists for experimentalists. While the background physics is summarized for less experienced readers, the emphasis is certainly on experimental verifications: the strategy, the apparatuses, the data analysis and the results of many cornerstone experiments are analyzed and discussed in depth. This textbook serves as a useful resource for both graduate students and professionals working in the increasingly vibrant field of experimental gravity.
Making Sense of Human Life
Drawing from rich archival material, this book provides unprecedented access to the professional documents and historical context surrounding the life's work of Dr. Murray Bowen (1913-1990), medical doctor, psychiatrist, and pioneering researcher of Family Systems Theory.
Astronomy
This lab manual provides students with hands-on experience studying astronomy in a lab setting. The exercises provide instructional content for working with the software tool Stellarium, and studying various stellar bodies including the Sun, Moon, and planets, as well as variable stars and galaxies and the Milky Way. Several labs also focus on planetarium terminology, spectral analysis, Hertzsprung-Russell diagrams, and the expansion of the universe. The ten labs in this manual are printed in color and have perforated pages for students to tear out and turn in.
Mandela Effect
This memorable line and other shared memories have seemingly changed from what a group of people remember.The mandela effect encompasses a mysterious set of mismatching memories and is known to cause a surreal feeling.Let's explore the possibility of these mismatching memories being caused by false memories, parallel universes, or a simulated reality.Attention! The mandela effect has revealed that all life on earth, as we know it, live's a parallel existence on a multitude of different, yet unusually similar earths, all within the milky way galaxy! This book attempts to unravel the mysteries surrounding the mandela effect and what it's trying to tell us about the sacred secrets of creation and life as we know it! The prophecy in revelation chapter 10 verse 6 and 7 prophecies the mandela effect, therefore revealing the holy nature of this miraculous phenomenon!The mandela effect takes the reader into a story of betrayal, fame, and ultimately, regret as wannabe rapper desiring fame, cameron, unknowingly makes a deal with powers that are beyond his control. Rife with deception, mystery, and an alternate reality, can cameron beat the odds in this black horror that looks at evil spirits that follow hollywood and the entertainment industry?This book will serve as a basic introduction to the mandela effect, and will give you a foundation from which you could continue your own research into the phenomenon.
Simulation Theory
The simulation theory: are you living in a simulated reality? Is a book that explores the possibility of us inhabiting a simulated world. The first part of the book goes through each of the three possibilities for nick bostrom's simulation hypothesis and analyzes them, providing evidence for why each one might be true or false. After analyzing the different possibilities, the author then asks what it would mean if we are living in a computer simulation and what implications it has for our understanding of reality. You'll discoverWhat the simulation theory isA solution to the science vs. Religion problemA 10-second method to banish embarrassment, anxiety, and fearLittle things that suggest the simulation theory is realHow you can use the simulation theory to change your perspective about anythingHow you could make your life infinitely better with cheat codes.Have you ever wondered what our robots might be thinking? What do our cars experience as they use their sensors to observe the world around them and increasingly take over our driving duties? When we play computer games, are we the only ones who experience the simulated virtual worlds they create? More generally, are our computer-driven creations sentient with their own internal, subjective streams of conscious?
Can’t Get Enough Space Stuff
Blast off with the perfect combination of facts, stories, photos, and fun all about what lies beyond Earth's atmosphere--SPACE!This book has everything to captivate space enthusiasts: Tons of fun facts, exciting games, hands-on activities, hilarious space jokes, stories from experts, and tidbits about the latest info on black holes, the International Space Station, and what life on Mars could look like. Key features include: -A glossary game in the front of the book to learn key space terms-More than 200 stunning illustrations and photographs-Detailed diagrams and infographics-Hilarious space jokes -Articles that do a deep dive into outer space research and hands-on accounts from experts-Hands-on activities you can try at home-Quizzes and games to test kids' knowledge This brand-new series from National Geographic Kids is a one-stop shop for everything kids want--fun facts, photos, and all things awesome about their favorite topic. A winning combination of running text and short bursts of information keeps kids excited and engaged as they get all kinds of amazing content about subjects of interest.From telling jokes to friends and impressing teachers to absorbing the latest research, kids will love sharing what they've learned about space and will want to dive into the book again and again.
Low Cost - High Tech
Low cost experiments dealing with high tech everyday gadgets for teaching physics at school. Using 60 hands-on experiments, you will learn how to give answers in physics lessons with a manageable amount of material and concise reults.
Physics of Wave Turbulence
A century ago, Lewis Fry Richardson introduced the concept of energy cascades in turbulence. Since this conceptual breakthrough, turbulence has been studied in diverse systems and our knowledge has increased considerably through theoretical, numerical, experimental and observational advances. Eddy turbulence and wave turbulence are the two regimes we can find in nature. So far, most attention has been devoted to the former regime, eddy turbulence, which is often observed in water. However, physicists are often interested in systems for which wave turbulence is relevant. This textbook deals with wave turbulence and systems composed of a sea of weak waves interacting non-linearly. After a general introduction which includes a brief history of the field, the theory of wave turbulence is introduced rigorously for surface waves. The theory is then applied to examples in hydrodynamics, plasma physics, astrophysics and cosmology, giving the reader a modern and interdisciplinary view of the subject.
The Global Energy Transition
Global energy is on the cusp of change, and it has become almost a truism that energy is in transition. But what does this notion mean exactly? This book explores the working hypothesis that, characteristically, the energy system requires a strategy of the international community of states to deliver sustainable energy to which all have access. This strategy is for establishing rules-based governance of the global energy value-cycle. The book has four substantive parts that bring together contributions of leading experts from academia and practice on the law, policy, and economics of energy. Part I, 'The prospects of energy transition', critically discusses the leading forecasts for energy and the strategies that resource-rich countries may adopt. Part II, 'Rules-based multilateral governance of the energy sector', details the development and sources of rules on energy. Part III, 'Competition and regulation in transboundary energy markets', discusses principal instruments of rules-based governance of energy. Part IV, 'Attracting investments and the challenges of multi-level governance', focuses on the critical governance of the right investments. This book is a flagship publication of the Centre for Energy, Petroleum and Mineral Law and Policy at the University of Dundee. It launches the Hart series 'Global Energy Law and Policy' and is edited by the series general editors Professors Peter D Cameron and Volker Roeben, and also Dr Xiaoyi Mu.
Superconducting Multilayer Technology for Josephson Devices
Within this book fabrication processes for high-quality Josephson junctions based on niobium and aluminum oxide as well as niobium nitride and aluminum nitride on various substrates are discussed. Techniques for achieving a planar chip topography and sub-繕m lateral dimensions, aiding the realization of sophisticated Josephson devices such as SQUIDs, flux-flow oscillators and long Josephson junctions with artificial phase discontinuities, are presented in detail.
On the Edge of the Cosmos
In a world where intergalactic wars are a common topic for movies, it is hard to imagine that the discovery of galaxies was made less than a century ago. In fact, it was one of the key astrophysical milestones of the first half of the 20th century, along with the revelation of the expansion of the Universe and the understanding of the source of the stars' energy. The second half of last century saw the unexpected discovery of fantastic objects and extreme events in the Universe including neutron stars, black holes, radio galaxies, quasars, exoplanets, or stellar explosions. Modern cosmology was simultaneously established with the Big Bang model, leading to an astonishingly precise determination of the parameters of the Universe.The author here retraces the adventure of twentieth-century astronomy and describes how it has changed our vision of the cosmos. By assessing the major successes of this undertaking and highlighting the fundamental questions that still remain, he puts into perspective the recent progress at the dawn of the new millennium including the acceleration of the expansion of the Universe and dark energy, dark matter, exoplanets, black hole mergers and gravitational waves, to name only the most spectacular discoveries. This book thus offers, in a concise and accessible form, a synthesis of our current knowledge of astrophysics, including many beautiful images from leading observatories.
Grounds of Natural Philosophy
This book has been considered important throughout the human history, and so that this work is never forgotten we have made efforts in its preservation by republishing this book in a modern format for present and future generations. This whole book has been reformatted, retyped and designed. These books are not made of scanned copies and hence the text is clear and readable.
Kepler
This book has been considered important throughout the human history, and so that this work is never forgotten we have made efforts in its preservation by republishing this book in a modern format for present and future generations. This whole book has been reformatted, retyped and designed. These books are not made of scanned copies and hence the text is clear and readable.
Fluid Flow and Heat Transfer in Cellular Solids
To determine the characteristics and properties of cellular solids for an application, and to allow a systematic practical use by means of correlations and modelling approaches, we perform experimental investigations and develop numerical methods. In view of coupled multi-physics simulations, we employ the phase-field method. Finally, the applicability is demonstrated exemplarily for open-cell metal foams, providing qualitative and quantitative comparison with experimental data.
Development of Microactuators Based on the Magnetic Shape Memory Effect
The giant magneto-strain effect in Ni-Mn-Ga alloys is particularly attractive for actuator applications. Two different approaches are being pursued to develop MSM microactuators. To observe large deflections of Ni-Mn-Ga microactuators, the material should be exhibiting low twinning stress and large magnetic anisotropy. In addition, design rules and boundary conditions for operating the Ni-Mn-Ga actuator material are having significant importance for evolution of performance characteristics.
Quantitative phase-field model for phase transformations in multi-component alloys
Phase-field modeling has spread to a variety of applications involving phase transformations.While the method has wide applicability, derivation of quantitative predictions requires deeper understanding of the coupling between the system and model parameters. The book highlights a novel phase-field model based on a grand-potential formalism allowing for an elegant and efficient solution to problems in phase transformations.
Experiments on flux qubits with pi-shifters
The results of the research re-ported in this work show that tunable gap flux qubits have a potential for building quantum registers. Cavities coupled to flux qubits can be used for in-formation storage and transfer between qubits. SFS π-shifters provide a simple approach to bias multi-qubit circuits. A possibility to change the qubit resonance frequency while preserving qubit coherence enables implementation of switchable coupling between qubits and cavities.
The CERN Resonant WISP Search (CROWS)
The subject of this work is the design, implementation and first results of the "CERN Resonant WISP Search" (CROWS), which probes the existence of Axion Like Particles and Hidden Sector Photons (HSPs) using microwave techniques. By exploiting low loss cavity resonators, multiple layers of electromagnetic shielding and a micro-Hz bandwidth detection scheme, new exclusion limits could be set. For HSPs, sensitivity was improved by a factor of 7 compared to previous laboratory experiments.
Continuous Calibration of b-tagging algorithms mit pTrel and sPlot
This diploma thesis examines b-tagging algorithms with the sPlot technique and the pTrel method based on Cern data from the Atlas experiment and data from simulation. Deviations between experimental data and the simulation data are investigated thoroughly based on statistical analysis using the sPlot technique and the pTrel method for evaluating the performance of b-tagging algorithms used at Cern. In principle, the calibration and continuous calibration of b-tagging algorithms with the sPlot technique and the pTrel method is investigated in this thesis.
Modern Electricity Systems
Modern Electricity SystemsAwarded "The Best Book for Energy Engineers" by The American Energy Society 2023 A welcome textbook instructing on many current aspects of energy generation, transmission, distribution, and consumption The importance of a well-informed group of individuals in charge of energy production and use is essential to create a sustainable and greener tomorrow. Technologies and costs are rapidly changing, and environmental goals widely debated in this book. The future of energy is at a crossroads. In addition, energy and technology poverty affects as much as 25% of the world's population. Having the correct set of "tools"--a basic understanding of modern electrical systems--is essential, not just for engineers but for our leaders and decision-makers. With decades of experience in industry and academia behind them, the team of authors in Modern Electricity Systems offers a "toolbox" from which the reader will learn what is essential to make informed decisions. As such, this textbook provides an introduction to the fundamentals of how electricity is generated, financed, regulated, rationed, and stored - with consideration not just of the current status of these issues but a glance at what the next decade may hold. Without this basic level of comprehension, the growing global impact and social issues can be discussed and advocated for, but real change in this sector can only be achieved through understanding the systems. Modern Electricity Systems readers will also find: Support to create a course on energy transition and energy policy for sustainable development International modern day case studies, that represent the most current and essential topics, to illustrate key concepts, as well as ones focused on the United States Sample problem sets that bring together essential ideas learned from each chapter A textbook written by a team of working professionals with international experience in real-world applications of policy, engineering, and operations Modern Electricity Systems is a helpful reference for graduate and advanced undergraduate students and researchers, policymakers, environmentalists, humanitarians, business leaders, and decision-makers in all three sectors of electricity operations, engineering, and policy matters.
Numerical efficiency calibration of in vivo measurement systems
Monte Carlo radiation transport codes were used with virtual models of in vivo measurement equipment. Software was coded to handle memory intensive anthropomorphic voxel models for simulation of measurement scenarios. Tools, methods and models have been validated. Various parameters have been investigated for their sensitivity. Methods based on image registration techniques have been developed to transform existing human models to match with an individual test person.
The Structures of Mathematical Physics
This textbook serves as an introduction to groups, rings, fields, vector and tensor spaces, algebras, topological spaces, differentiable manifolds and Lie groups --- mathematical structures which are foundational to modern theoretical physics. It is aimed primarily at undergraduate students in physics and mathematics with no previous background in these topics. Applications to physics --- such as the metric tensor of special relativity, the symplectic structures associated with Hamilton's equations and the Generalized Stokes's Theorem --- appear at appropriate places in the text. Worked examples, end-of-chapter problems (many with hints and some with answers) and guides to further reading make this an excellent book for self-study. Upon completing this book the reader will be well prepared to delve more deeply into advanced texts and specialized monographs in theoretical physics or mathematics.
The Future of Astronomy
This book has been considered important throughout the human history, and so that this work is never forgotten we have made efforts in its preservation by republishing this book in a modern format for present and future generations. This whole book has been reformatted, retyped and designed. These books are not made of scanned copies and hence the text is clear and readable.
Harper's Electricity Book for Boys
This book has been considered important throughout the human history, and so that this work is never forgotten we have made efforts in its preservation by republishing this book in a modern format for present and future generations. This whole book has been reformatted, retyped and designed. These books are not made of scanned copies and hence the text is clear and readable.
Fascinating Problems for Young Physicists
Problem-solving is the cornerstone of all walks of scientific research. Fascinating Problems for Young Physicists attempts to clear the boundaries of seemingly abstract physical laws and their tangible effects through a step-by-step approach to physics in the world around us. It consists of 42 problems with detailed solutions, each describing a specific, interesting physical phenomenon. Each problem is further divided into questions designed to guide the reader through, encouraging engagement with and learning the physics behind the phenomenon. By solving the problems, the reader will be able to discover, for example, what the relation is between the mass of an animal and its expected lifetime, or what the efficiency limit is of wind turbines. Intended for first-year undergraduate students and interested high school students, this book develops inquiry-based scientific practice and enables students to acquire the necessary skills for applying the laws of physics to realistic situations.
