## A Student’s Guide to Maxwell’s Equations free pdf.

interactive format – which means that you’ll be able to view the entire solution at once or ask for a series of helpful hints that will guide you to the final answer. And if you’re the kind of learner who benefits from hearing spoken words rather than just reading text, the audio podcasts are for you. These MP3 files walk you through each chapter of the book, pointing out important details and providing further explanations of key concepts. Is this book right for you? It is if you’re a science or engineering student who has encountered Maxwell’s Equations in one of your textbooks, but you’re unsure of exactly what they mean or how to use them. In that case, you should read the book, listen to the accompanying podcasts, and work through the examples and problems before taking a standardized test such as the Graduate Record Exam.

Alternatively, if you’re a graduate student reviewing for your comprehensive exams, this book and the supplemental materials will help you prepare. And if you’re neither an undergraduate nor a graduate science student, but a curious young person or a lifelong learner who wants to know more about electric and magnetic fields, this book will introduce you to the four equations that are the basis for much of the technology you use every day. The explanations in this book are written in an informal style in which mathematical rigor is maintained only insofar as it doesn’t get in the way of understanding the physics behind Maxwell’s Equations.

## A Student’s Guide to Maxwell’s Equations.

You’ll find plenty of physical analogies – for example, comparison of the flux of electric and magnetic fields to the flow of a physical fluid. James Clerk Maxwell was especially keen on this way of thinking, and he was careful to point out that analogies are useful not because the quantities are alike but because of the corresponding relationships between quantities. So although nothing is actually flowing in a static electric field, you’re likely to find the analogy between a faucet (as a source of fluid flow) and positive electric charge (as the source of electric field lines) very helpful in understanding the nature of the electrostatic field.

One final note about the four Maxwell’s Equations presented in this book: it may surprise you to learn that when Maxwell worked out his theory of electromagnetism, he ended up with not four but twenty equations that describe the behavior of electric and magnetic fields. It was Oliver Heaviside in Great Britain and Heinrich Hertz in Germany who combined and simplified Maxwell’s Equations into four equations in the two decades after Maxwell’s death. Today we call these four equations Gauss’s law for electric fields, Gauss’s law for magnetic fields, Faraday’s law, and the Ampere– Maxwell law. Since these four laws are now widely defined as Maxwell’s Equations, they are the ones you’ll find explained in the book

**Download A Student’s Guide to Maxwell’s Equations by Daniel Fleisch in free pdf format.**