A Student s Guide to Waves

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Transcription:

A Student s Guide to Waves 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 /wavesguide. These include interactive solutions for every exercise and problem in the text and a series of podcasts in which the authors explain the important concepts of every section of the book. daniel fleisch is a Professor in the Department of Physics at Wittenberg University, where he specializes in electromagnetics and space physics. He is the author of several Student s Guide books, including most recently A Student s Guide to the Mathematics of Astronomy (Cambridge University Press, 2013). laura kinnaman is an Assistant Professor of Physics at Morningside College, where she carries out computational research in chemical physics and organizes the Physics Club.

A Student s Guide to Waves DANIEL FLEISCH Wittenberg University LAURA KINNAMAN Morningside College

University Printing House, Cambridge CB2 8BS, United Kingdom Cambridge University Press is part of the University of Cambridge. It furthers the University s mission by disseminating knowledge in the pursuit of education, learning and research at the highest international levels of excellence. Information on this title: /9781107643260 c D. Fleisch and L. Kinnaman 2015 This publication is in copyright. Subject to statutory exception and to the provisions of relevant collective licensing agreements, no reproduction of any part may take place without the written permission of Cambridge University Press. First published 2015 Reprinted 2015 Printed in the United States of America by Sheridan Books, Inc. A catalog record for this publication is available from the British Library Library of Congress Cataloging in Publication data Fleisch, Daniel A., author. A student s guide to waves / Daniel Fleisch, Wittenberg University, Laura Kinnaman, Morningside College. pages cm Includes bibliographical references and index. ISBN 978-1-107-05486-8 (Hardback) ISBN 978-1-107-64326-0 (Paperback) 1. Waves Textbooks. I. Kinnaman, Laura, author. II. Title. QC157.F54 2015 530.12 4 dc23 2014032243 ISBN 978-1-107-05486-8 Hardback ISBN 978-1-107-64326-0 Hardback Additional resources for this publication at /9781107643260 Cambridge University Press has no responsibility for the persistence or accuracy of URLs for external or third-party internet websites referred to in this publication, and does not guarantee that any content on such websites is, or will remain, accurate or appropriate.

Contents Preface Acknowledgements page vii ix 1 Wave fundamentals 1 1.1 Definitions 1 1.2 Basic relationships 6 1.3 Vector concepts 9 1.4 Complex numbers 14 1.5 Euler relations 23 1.6 Wavefunctions 26 1.7 Phasor representation of wavefunctions 33 1.8 Problems 43 2 The wave equation 44 2.1 Partial derivatives 44 2.2 The classical wave equation 53 2.3 Properties of the wave equation 59 2.4 PDEs related to the wave equation 69 2.5 Problems 74 3 Wave components 75 3.1 General solutions to the wave equation 75 3.2 Boundary conditions 80 3.3 Fourier theory 94 3.4 Wave packets and dispersion 116 3.5 Problems 123 4 The mechanical wave equation 124 4.1 Properties of mechanical waves 124 v

vi Contents 4.2 Waves on a string 126 4.3 Pressure waves 134 4.4 Energy and power of mechanical waves 141 4.5 Wave impedance, reflection, and transmission 149 4.6 Problems 161 5 The electromagnetic wave equation 162 5.1 Properties of electromagnetic waves 162 5.2 Maxwell s equations 165 5.3 Electromagnetic wave equation 168 5.4 Plane-wave solutions to the electromagnetic wave equation 171 5.5 Energy, power, and impedance of electromagnetic waves 178 5.6 Problems 184 6 The quantum wave equation 185 6.1 Wave and particle characteristics 185 6.2 Wave particle duality 189 6.3 The Schrödinger equation 194 6.4 Probability wavefunctions 199 6.5 Quantum wave packets 200 6.6 Problems 213 References 214 Index 215

Preface This book has one purpose: to help you understand the foundational concepts of waves and the mathematics of the wave equation. The authors have attempted to fill the book with clear, plain-language explanations, using just enough mathematical rigor to help you understand the important principles without obscuring the underlying physics. Armed with that understanding, you ll be ready to tackle the many excellent texts that deal with mechanical, electromagnetic, and quantum waves. You should understand that this book is meant to be used as a supplemental text and is not intended to be a comprehensive treatment of wave phenomena. That means that we haven t attempted to cover every aspect of waves; instead, we ve included the topics that our students have found most troubling. As you ll see, the design of the book supports its use as a supplemental text. Whenever possible, we ve made the chapters modular, allowing you to skip material you ve already mastered so you can proceed directly to the topics with which you need help. As a Student s Guide, this book is accompanied by a website that provides a variety of freely available material that we think you ll find very helpful. That includes complete, interactive solutions to every problem in the book, as well as a series of podcasts in which we explain the most important concepts, equations, and graphs in every section of every chapter. By interactive" we mean that you can see the full solution immediately, or you can request one or more hints that will guide you to the final solution. The icon appears throughout the book and highlights where there is accompanying material available online. If you choose to read the ebook on a device that supports interactivity, these additional features will appear directly within the text. If your device doesn t support interactivity, clicking on will take you straight to the books website. vii

viii Preface Is this book right for you? It is if you re looking for help in understanding waves, whether you need that help to supplement your work in a physics or engineering class, in preparing for the physical science portion of a standard exam, or as a part of a program of self-study. Whatever your reason, we commend your initiative.

Acknowledgements Primary responsibility for the good bits in this book belongs to the students in our classes, whose curiosity, intelligence, and persistence have inspired us to pursue (and occasionally find) deeper understanding and better explanations of the physics of waves. We thank those students. We also thank Dr. Nick Gibbons, Dr. Simon Capelin, and the world-class production team of Cambridge University Press, whose support has been essential during the two-year process that has resulted in this book. The e- book version of this text would not have been possible without the thoughtful guidance of Claire Eudall and Catherine Flack. Laura also thanks her sister, Dr. Carrie Miller, for all of the feedback, support, and encouragement that she s given. I can always count on Carrie to help me see my way out of a tricky spot. I also thank Bennett for his patience and support when I hole myself up, writing. My parents, sisters, brothersin-law, nieces, and nephews who all provided encouragement and diversion, thank you! And as always, Dan thanks Jill for her unwavering support and acknowledges the foresight and intuition of Dr. John Fowler, who made possible my contributions to the Cambridge line of Student s Guides. ix