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In this text, a group of scientists define and elaborate on possible new directions in physics that will take place in the next century and increase understanding of the natural world. Topics discussed include string physics, the future of particle physics and neutrino oscillations.
Aimed at helping the physics student to develop a solid grasp of basic graduate-level material, this book presents worked solutions to a wide range of informative problems. These problems have been culled from the preliminary and general examinations created by the physics department at Princeton University for its graduate program. The authors, all students who have successfully completed the examinations, selected these problems on the basis of usefulness, interest, and originality, and have provided highly detailed solutions to each one. Their book will be a valuable resource not only to other students but to college physics teachers as well. The first four chapters pose problems in the areas of mechanics, electricity and magnetism, quantum mechanics, and thermodynamics and statistical mechanics, thereby serving as a review of material typically covered in undergraduate courses. Later chapters deal with material new to most first-year graduate students, challenging them on such topics as condensed matter, relativity and astrophysics, nuclear physics, elementary particles, and atomic and general physics.
The past century has seen fantastic advances in physics, from the discovery of the electron, x-rays, and radioactivity, to the era of incredible solid state devices, computers, quarks and leptons, and the standard model. But what of the next? Many scientists think we are on the threshold of an even more exciting new era in which breakthroughs in a startling variety of directions will produce significant changes in our understanding of the natural world. In this book, a group of eminent scientists define and elaborate on these new directions. Ed Witten and Frank Wilczek discuss string theory and the future of particle physics; Donald Perkins describes the search for neutrino oscillations; Alvin Tollestrup reveals dreams of a muon collider at Fermilab to probe the heart of "elementary" particles; and Robert Palmer anticipates a new generation of particle accelerators. Thibault Damour reviews classical gravitation and the relevant new high-precision experiments; Kip Thorne describes the exciting future for gravitational wave astronomy; and Paul Steinhardt examines the recent breakthroughs in observational cosmology and explains what future experiments might reveal. James Langer explores nonequilibrium statistics and relates it to the origins of complexity; Harry Swinney takes an experimentalist's view of the emergence of order in seemingly chaotic systems; and John Hopfield describes an extremely unusual dynamical system--the human brain. Bruce Hillman, M. D., discusses the recent developments in imaging techniques that have brought about outstanding advances in medical diagnostics. T.V. Ramakrishnan looks at high-temperature superconductors, which could eventually revolutionize the solid-state technology on which society is already highly dependent.
This book is targeted mainly to the undergraduate students of USA, UK and other European countries, and the M. Sc of Asian countries, but will be found useful for the graduate students, Graduate Record Examination (GRE), Teachers and Tutors. This is a by-product of lectures given at the Osmania University, University of Ottawa and University of Tebrez over several years, and is intended to assist the students in their assignments and examinations. The book covers a wide spectrum of disciplines in Modern Physics, and is mainly based on the actual examination papers of UK and the Indian Universities. The selected problems display a large variety and conform to syllabi which are currently being used in various countries. The book is divided into ten chapters. Each chapter begins with basic concepts containing a set of formulae and explanatory notes for quick reference, followed by a number of problems and their detailed solutions. The problems are judiciously selected and are arranged section-wise. The so- tions are neither pedantic nor terse. The approach is straight forward and step-- step solutions are elaborately provided. More importantly the relevant formulas used for solving the problems can be located in the beginning of each chapter. There are approximately 150 line diagrams for illustration. Basic quantum mechanics, elementary calculus, vector calculus and Algebra are the pre-requisites.
Twelve Problems in Physics introduces students to important concepts and techniques in introductory physics. The book focuses on exploring major concepts in depth through exciting, detailed examples. The material is organized into twelve carefully selected chapters. Astute chapter titles immediately engage students and relate the physics concepts to something familiar and accessible. The book begins with the "Flight of the Rocket," and important kinematic and dynamical concepts such as vertical and angled flight, and drag. It progresses to "Nonstop Service to Anywhere," with information on flight range, work and energy, and more. "Shoot the Moon" deals with the laws of Newtonian and Einsteinian gravitation, planetary motion, and orbital dynamics, while "Catch a Wave (A Knotty Problem)" addresses wave dynamics and kinematics, sound waves, and scattering at a knot. Readers will also learn about collisions, rotation, the harmonic oscillator, electrons, neurons, the solenoid, electromagnetic waves, and optics. Clear and incisive, Twelve Problems in Physics provides thorough coverage of critical information. The book is written for introductory calculus-based physics courses for science and engineering students.
Key Features: Covers problems of real life situations to develop learners' problem solving skills. Ideal for students willing to sharpen their engineering aptitude.Graded problems to suit average as well as high level students.About the Book:The book is an excellent classic on physics having relevance for the students of physical science at the senior secondary and undergraduate levels. It presents the problems with The related concepts at length under six core sections. For the ease of students appropriate formulas are given in each section. All difficult problems are explained in a lucid manner. The answers to all the problems are given at the end of the book.
"Some Critical Questions in Biological Physics' discusses eighteen key questions in biological physics, each forming independent chapters that will, by presenting the research in terms of key, unsolved problems, encourage interest in the field. It also provides useful reading for undergraduate physical scientists considering a career in this area."--Prové de l'editor.
"Problem Solving in Theoretical Physics" helps students mastering their theoretical physics courses by posing advanced problems and providing their solutions - along with discussions of their physical significance and possibilities for generalization and transfer to other fields.
En række spørgsmål med svar indenfor bl.a. el-lære, magnetisme, bevægelse, varme, væsker, lys, tyngdekraft, energi, svingninger og atomfysik. Bogen forudsætter viden om fysik