The Bestselling Classic Updated for Surfers, Sailors, Oceanographers, Climate Activists, and Those Who Love the Sea

First published in 1963 and updated in 1979, this classic was an essential handbook for anyone who studies, surfs, protects, or is fascinated by the ocean. The original author, Willard Bascom, was a master of the subject and included a wealth of information, based on theory and statistics, but also anecdotal observation and personal experience. It brought to the general public understanding of the awesome and complex power of the waves.

This revision from Kim McCoy adds recent facts and anecdotes to update the book's relevance in the time of climate change. One of the most significant effects of global warming will be sea-level rise. What will this mean to waves and beaches, and what effects are we already seeing? New text and photos cover events such as the Indian Ocean tsunami of 2004, Hurricane Katrina flooding of 2005, and the 2011 earthquake and resulting devastation in Fukishima.

As well as students, surfers, and the general public, this updated edition of a beloved classic is an essential handbook for climate scientists and ocean activists, providing clear explanations and detailed resources for the constant battle to preserve the shore.

From the renowned theoretical physicist and national bestselling author of The God Equation comes the first book-length exploration of the most exciting development in modern physics: the theory of 10-dimensional space.

Among the best of its genre to appear in recent years...What a wonderful adventure it is, trying to think the unthinkable! --The New York Times Book Review

The theory of hyperspace, which Michio Kaku pioneered, may be the leading candidate for the Theory of Everything that Einstein spent the remaining years of his life searching for.

This text provides a framework for describing and organizing the basic forces of nature and the interactions of subatomic particles. A detailed and self-contained mathematical account of gauge theory, it is geared toward beginning graduate students and advanced undergraduates in mathematics and physics. This well-organized treatment supplements its rigor with intuitive ideas.
Starting with an examination of principal fiber bundles and connections, the text explores curvature; particle fields, Lagrangians, and gauge invariance; Lagrange's equation for particle fields; and the inhomogeneous field equation. Additional topics include free Dirac electron fields; interactions; calculus on frame bundle; and unification of gauge fields and gravitation. The text concludes with references, a selected bibliography, an index of notation, and a general index.

The text material in the present volume is intended as an introduction to the study of vibrations and waves in general, but the discussion is almost entirely confined to mechanical systems. Thus, except in a few places, an adequate preparation for it is a good working knowledge of elementary kinematics and dynamics. The decision to limit the scope of the book in this way was guided by the fact that the presentation is quantitative and analytical rather than descriptive. The temptation to incorporate discussions of electrical and optical systems was always strong.

A lively, revealing look at waves of all kinds from the bestselling author of The Cloudspotter's Guide

Get ready for a global journey like no other-a passionate enthusiast's exploration of waves that begins with a quiet afternoon at the shore and ends with the world-class Hawaiian surf, making side trips to reveal the ups and downs of brain waves, radio waves, infrared waves, microwaves, shock waves, light waves, and much more.

Have you ever wondered why a prism turns ordinary sunlight into a rainbow? Isaac Newton knew why. How can a magnet be used to generate electricity? Michael Faraday could have told you. Can you explain how a toaster toasts bread? In this book, author Paul Fleisher answers these and many more questions as he looks at the laws that describe how waves behave. Through simple experiments, detailed illustrations and concepts that are easy to understand, readers are introduced to the basic principles of light, electricity and magnetism in a fun, exciting way.

This text considers waves the great unifying concept of physics. With minimal mathematics, it emphasizes the behavior common to specific phenomena--earthquake waves studied by seismologists; waves and ripples on oceans, lakes, and ponds; waves of sound that travel through the air; mechanical waves in stretched strings and in quartz crystals that can be used to control the frequency of radio transmitters; electromagnetic waves that constitute light, and that are radiated by radio transmitters and received by radio receivers; and the waves of probability employed in quantum mechanics to predict the behavior of electrons, atoms, and complex substances.
Starting with a look at the strength and power of sinusoidal waves, author John R. Pierce explores wave media and modes, phase velocity and group velocity, vector and complex representation, energy and momentum, coupled modes and coupling between modes, polarization, diffraction, and radiation. References and an index appear at the end of the book.

A lively collection of Einstein's groundbreaking scientific correspondence on modern physics

Imagine getting four of the greatest minds of modern physics in a room together to explain and debate the theories and innovations of their day. This is the fascinating experience of reading Letters on Wave Mechanics, the correspondence between H. A. Lorentz, Max Planck, Erwin Schrödinger, and Albert Einstein.

These remarkable letters illuminate not only the basis of Schrödinger's work in wave mechanics, but also how great scientific minds debated and challenged the ever-changing theories of the day and ultimately embraced an elegant solution to the riddles of quantum theory. Their collected correspondence offers insight into both the personalities and professional aspirations that played a part in this theoretical breakthrough.

This authorized book features rare photos and never-before-seen documents from the Albert Einstein Archives at the Hebrew University of Jerusalem.

This book describes the design and performance analysis of satnav systems, signals, and receivers, with a general approach that applies to all satnav systems and signals in use or under development. It also provides succinct descriptions and comparisons of each satnav system.

• Clearly structured, and comprehensive depiction of engineering satellite-based navigation and timing systems, signals, and receivers
• GPS as well as all new and modernized systems (SBAS, GLONASS, Galileo, BeiDou, QZSS, IRNSS) and signals being developed and fielded
• Theoretical and applied review questions, which can be used for homework or to obtain deeper insights into the material
• Extensive equations describing techniques and their performance, illustrated by MATLAB plots
• New results, novel insights, and innovative descriptions for key approaches and results in systems engineering and receiver design

If you are an instructor and adopted this book for your course, please email ieeeproposals@wiley.com to get access to the instructor files for this book.

The author chronicles the search for . . . a theory to explain all natural fields and their interaction with particles. . . . Lives and contributions of physicists and cosmologists, starting with the pioneers of scientific cosmology in the 19th century, are described. Topics range from Maxwell's discovery of the laws of magnetic fields to Hawking's work on black hole physics. A concluding chapter looks at the current state of unified field theory. (Sci Books Films)

A guide to ocean waves traces their evolution from wind-wave generation to coastal effects.

Sitting on the beach on a sunny summer day, we enjoy the steady advance and retreat of the waves. In the water, enthusiastic waders jump and shriek with pleasure when a wave hits them. But where do these waves come from? How are they formed and why do they break on the shore? In Waves, Fredric Raichlen traces the evolution of waves, from their generation in the deep ocean to their effects on the coast. He explains, in a way that is readily understandable to nonscientists, both the science of waves themselves and the technology that can be used to protect us against their more extreme forms, including hurricanes and tsunamis.

After offering a basic definition of waves and explaining the mechanics of wind-wave generation, Raichlen describes how waves travel, how they shoal (rise), how they break, and how they transform in other ways. He goes on to describe, among other things, the complicated sun-Earth-moon combinations that create astronomical tides (the high and low tides that occur daily and predictably); the effects of waves on the beach, including rip currents and beach erosion, and on harbors and shipping; and the building of breakwaters to protect harbors and bays. He discusses hurricanes, storm surges, and hurricane-generated waves. He offers a brief history of tsunamis, including Sumatra's in 2004 and Japan's in 2011, and explains the mechanisms that generate them (including earthquakes, landslides, and volcanoes).

Waves can be little ripples that lap peacefully at the shore or monstrous tsunamis that destroy everything in their paths. Describing the science underlying this astonishing variety, Waves offers a different kind of beach reading.

This book is intended as an introduction to classical water wave theory for the college senior or first year graduate student. The material is self-contained; almost all mathematical and engineering concepts are presented or derived in the text, thus making the book accessible to practicing engineers as well.The book commences with a review of fluid mechanics and basic vector concepts. The formulation and solution of the governing boundary value problem for small amplitude waves are developed and the kinematic and pressure fields for short and long waves are explored. The transformation of waves due to variations in depth and their interactions with structures are derived. Wavemaker theories and the statistics of ocean waves are reviewed. The application of the water particle motions and pressure fields are applied to the calculation of wave forces on small and large objects. Extension of the linear theory results to several nonlinear wave properties is presented. Each chapter concludes with a set of homework problems exercising and sometimes extending the material presented in the chapter. An appendix provides a description of nine experiments which can be performed, with little additional equipment, in most wave tank facilities.

Humanity has long looked to the sky and marvelled at the world around us. We've wondered why the world is the way it is and whether it has to be that way. For millennia these questions were theological, transitioning to philosophical during the Enlightenment, but the discipline that now drives progress is science. We now look forward, hoping to make additional connections and create a better understanding of the ultimate laws of nature. We dream of a time when we have developed a theory of everything--a theory that answers all questions.

There is so much that we don't know. This book is up front about our ignorance and spends some time dispelling some of the more popular theories. It then redirects the reader's attention to how we will actually move forward, by identifying things we don't yet understand and engaging with the experiments that will drive our comprehension.

Einstein's Unfinished Dream explores the cutting-edge research of modern particle physicists that pushes us slowly towards a theory of everything. Marshalling decades of experience in distilling high-level scientific concepts, Lincoln invites readers into the mysteries of dark matter, dark energy, matter/antimatter asymmetry, quark and lepton flavor, and other phenomena that have puzzled humanity for centuries.

Waves and oscillations permeate virtually every field of current physics research, are central to chemistry, and are essential to much of engineering. Furthermore, the concepts and mathematical techniques used for serious study of waves and oscillations form the foundation for quantum mechanics. Once they have mastered these ideas in a classical context, students will be ready to focus on the challenging concepts of quantum mechanics when they encounter them, rather than struggling with techniques.

This lively textbook gives a thorough grounding in complex exponentials and the key aspects of differential equations and matrix math; no prior experience is assumed. The parallels between normal mode analysis, orthogonal function analysis (especially Fourier analysis), and superpositions of quantum states are clearly drawn, without actually getting into the quantum mechanics. An in-depth, accessible introduction to Hilbert space and bra-ket notation begins in Chapter 5 (on symmetrical coupled oscillators), emphasizing the analogy with conventional dot products, and continues in subsequent chapters.

Connections to current physics research (atomic force microscopy, chaos, supersolids, micro electro-mechanical systems (MEMS), magnetic resonance imaging, carbon nanotubes, and more) are highlighted in the text and in end-of-chapter problems, and are frequently updated in the associated website.

The book actively engages readers with a refreshing writing style and a set of carefully applied learning tools, such as in-text concept tests, your turn boxes (in which the student fills in one or two steps of a derivation), concept and skill inventories for each chapter, and wrong way problems in which the student explains the flaw in a line of reasoning. These tools promote self-awareness of the learning process.

The associated website features custom-developed applets, video and audio recordings, additional problems, and links to related current research. The instructor-only part includes difficulty ratings for problems, optional hints, full solutions, and additional support materials.

Charles R.Storey's theory, which he has shared with Stephen Hawking and other prominent physicists is explained here in detail. Lumeniferous Ether Theory and other theories are examined in depth and included in a unified field theory which interconnects electricity, magnetism and gravity.

Our current method of space travel will require an enormous amount of time and effort to explore and colonize celestial bodies relatively close to earth. A unified theory which brings our understanding of relativity and quantum theory together into one complete systems of thought may broaden our perceptions regarding our space-time continnum and may also provide us with an entirely new system of space travel.

Discover the latest developments in fiber-optic communications with the newest edition of this leading textbook

In the newly revised fifth edition of Fiber-Optic Communication Systems, accomplished researcher and author, Dr. Govind P. Agrawal, delivers brand-new updates and developments in the science of fiber optics communications. The book contains substantial additions covering the topics of coherence detection, space division multiplexing, and more advanced subjects. You'll learn about topics like fiber's losses, dispersion, and nonlinearities, as well as coherent lightwave systems. The latter subject has undergone major changes due to the extensive development of digital coherent systems over the last decade. Space-division multiplexing is covered as well, including multimode and multicore fibers developed in just the last ten years. Finally, the book concludes with a chapter on brand-new developments in the field that are still at the development stage and likely to become highly relevant for practitioners and researchers in the coming years.

Readers will also benefit from the inclusion of:

• A thorough introduction to the fundamentals of fiber-optic communication systems
• An exploration of the management of fiber-optic communication losses, dispersion, and nonlinearities
• A practical discussion of coherent lightwave systems, including coherent transmitters and receivers, as well as noise and bit-error rate, sensitivity degradation mechanisms, and the impact of nonlinear effects
• A concise treatment of space-division multiplexing, including multicore and multimode fibers, multicore lightwave systems, and multimode lightwave systems
• Analyses of advanced topics, including pulse shaping for higher spectral efficiency, Kramers-Kronig receivers, nonlinear Fourier transform, wavelength conversion, and optical regeneration

Perfect for graduate students, professors, scientists, and professional engineers working or studying in the area of telecommunications technology, Fiber-Optic Communication Systems is an essential update to the leading reference in the area of fiber-optic communications.

This book demystifies the secrets of the working of the most mysterious, little known, less taught as well as read, often neglected with proverbial, out of sight out of mind, located away from the eyes of the operating manpower in the open field facing the vagaries of the nature but one of the most essential element of the AM Radio broadcasting chain; a self radiating tower antenna, which transmits the Radio signals thousands of kilometres away, to the listeners, without any boundary or gateway.

This book is intended to help immensely Radio Engineering Managers, Broadcast Engineers, Radio transmitter operating and maintaining staff as well as the technicians in understanding the basics of the design, erection, operating, and maintaining the AM Radio Tower antenna system, in a simple and easiest way without any mathematical jargons.

Waves are an important topic in the fields of mechanics, electromagnetism, and quantum theory, but many students struggle with the mathematical aspects. Written to complement course textbooks, this book focuses on the topics that students find most difficult. Retaining the highly popular approach used in Fleisch's other Student's Guides, the book uses plain language to explain fundamental ideas in a simple and clear way. Exercises and fully-worked examples help readers test their understanding of the concepts, making this an ideal book for undergraduates in physics and engineering trying to get to grips with this challenging subject. The book is supported by a suite of online resources available at www.cambridge.org/9781107643260. These include interactive solutions for every exercise and problem in the text and a series of video podcasts in which the authors explain the important concepts of every section of the book.

Do you know what makes up your reality? It is not length, width, depth and time. Instead it is more complex and involves a linked universe to continuously rejuvenate our very essence. Conservation of energy and mass rely on this continuous replenishment but that is not the strangest thing to understand as Anthropic science is helping us understand just how people affect reality. If you ever thought levitation was against physics, this book will help you understand. If you wondered how someone traveling near the speed of light would not ever get old, this may help and if you thought death kills you, you need to read the book as well.

The first edition of Satellite Communications Systems Engineering (Wiley 2008) was written for those concerned with the design and performance of satellite communications systems employed in fixed point to point, broadcasting, mobile, radio navigation, data relay, computer communications, and related satellite based applications. This welcome Second Edition continues the basic premise and enhances the publication with the latest updated information and new technologies developed since the publication of the first edition. The book is based on graduate level satellite communications course material and has served as the primary text for electrical engineering Masters and Doctoral level courses in satellite communications and related areas. Introductory to advanced engineering level students in electrical, communications and wireless network courses, and electrical engineers, communications engineers, systems engineers, and wireless network engineers looking for a refresher will find this essential text invaluable.