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This monograph examines James Clerk Maxwell’s contributions to electromagnetism to gain insight into the practice of science by focusing on scientific methodology as applied by scientists. First and foremost, this study is concerned with practices that are reflected in scientific texts and the ways scientists frame their research. The book is therefore about means and not ends.
This monograph examines James Clerk Maxwell’s contributions to electromagnetism to gain insight into the practice of science by focusing on scientific methodology as applied by scientists. First and foremost, this study is concerned with practices that are reflected in scientific texts and the ways scientists frame their research. The book is therefore about means and not ends.
This scarce antiquarian book is a facsimile reprint of the original. Due to its age, it may contain imperfections such as marks, notations, marginalia and flawed pages. Because we believe this work is culturally important, we have made it available as part of our commitment for protecting, preserving, and promoting the world's literature in affordable, high quality, modern editions that are true to the original work.
Feynman's Tips on Physics is a delightful collection of Richard P. Feynman's insights and an essential companion to his legendary Feynman Lectures on Physics With characteristic flair, insight, and humor, Feynman discusses topics physics students often struggle with and offers valuable tips on addressing them. Included here are three lectures on problem-solving and a lecture on inertial guidance omitted from The Feynman Lectures on Physics. An enlightening memoir by Matthew Sands and oral history interviews with Feynman and his Caltech colleagues provide firsthand accounts of the origins of Feynman's landmark lecture series. Also included are incisive and illuminating exercises originally developed to supplement The Feynman Lectures on Physics, by Robert B. Leighton and Rochus E. Vogt. Feynman's Tips on Physics was co-authored by Michael A. Gottlieb and Ralph Leighton to provide students, teachers, and enthusiasts alike an opportunity to learn physics from some of its greatest teachers, the creators of The Feynman Lectures on Physics.
In My Life as a Quant, Emanuel Derman relives his exciting journey as one of the first high-energy particle physicists to migrate to Wall Street. Page by page, Derman details his adventures in this field—analyzing the incompatible personas of traders and quants, and discussing the dissimilar nature of knowledge in physics and finance. Throughout this tale, he also reflects on the appropriate way to apply the refined methods of physics to the hurly-burly world of markets.
Computer Science: Reflections on the Field, Reflections from the Field provides a concise characterization of key ideas that lie at the core of computer science (CS) research. The book offers a description of CS research recognizing the richness and diversity of the field. It brings together two dozen essays on diverse aspects of CS research, their motivation and results. By describing in accessible form computer science's intellectual character, and by conveying a sense of its vibrancy through a set of examples, the book aims to prepare readers for what the future might hold and help to inspire CS researchers in its creation.
When Richard Feynman gave the two-year course on physics that would become the famous "Feynman Lectures on Physics," four lectures were left out of the published set. Also included in this collection is an essay by Matthew Sands, who discusses the origins of the collection and the lectures themselves.
Every reader interested in understanding the important problems in physics and astrophysics and their historic development over the past 60 years will enjoy this book immensely. The philosophy, history and the individual views of famous scientists of the 20th century known personally to the author, make this book fascinating for non-physicists, too. The book consists of three parts on (I) major problems of physics and astrophysics, (II) the philosophy and history of science and (III) memorial essays on famous physicists. The author is an internationally renowned scientist, who summarizes here his life-long interests, experience, and insights into the work of other eminent 20th-century physicists. Professor Ginzburg’s fundamental contributions to the theory of superconductivity, encapsulated in the famous and widely-used Ginzburg-Landau equations, have been recognized with the 2003 Nobel Prize in Physics, shared with A.A. Abrikosov and A.E. Leggett.
This book advocates a purely physical concept, emphasizing that we should not only look at physics from a mathematical perspective, that time is not a purely physical concept and, that physics uses displacement and time to describe velocity which is summative and practical but not the essence of velocity. The view of taking time as the basic concept of physics is wrong and it is the cause of leading physics astray. Therefore, the fundamentals of physics are unreliable and need to be reviewed from the start of physics hundreds of years ago. The author puts forward the concept of Foron in this book. He believes that Foron is the basis of matter, energy and force. In addition, the author has conducted in-depth research on velocity. The results calculated from the formulas derived from this book are exactly the same as those of related formulas of the Theory of Relativity. The study of matter, energy, velocity, force, field, heat, etc. in this book will exert a profound influence on physics. The physics research from macro and micro perspectives has finally achieved perfection and unity.
Covering the theory of computation, information and communications, the physical aspects of computation, and the physical limits of computers, this text is based on the notes taken by one of its editors, Tony Hey, on a lecture course on computation given b