ElectromagnetismElectromagnetism sets a new standard in physics education. Throughout the book, the theory is illustrated with real-life applications in modern technology. It also includes detailed work examples and step-by-step explanations to help readers develop their problem-solving strategies and skills and consolidate their understanding. In addition to a meticulous development of thse traditional, analytical mathematical approaches, readers are also introduced to a range of techniques required for solving problems using computers. Electromagnetism provides an ideal preparation for readers who plan advanced studies in electrodynamics as well as those moving into industry or engineering . |
From inside the book
Results 1-3 of 66
... Laplace's Equation , Boundary Conditions , and the Uniqueness Theorem The potential function V ( x ) in a region of space where the charge density is zero , satisfies the partial differential equation V2V = 0 , which is called Laplace's ...
... be the function F ( x ) = ( V1 − V2 ) ▽ ( V1 − V2 ) , ( 5.3 ) and consider the integral of VF over the volume V of interest . By Gauss's theo- rem , [ , V · Fd3x = √s ( 134 Chapter 5 General Methods for Laplace's Equation.
... the complex variable z = x + ¡ y with the Cartesian coordinate z . But the latter z never appears in a 2D problem . function will tell us the electric field lines . Suppose 164 Chapter 5 General Methods for Laplace's Equation.
Contents
History and Perspective | 1 |
Vector Calculus | 9 |
Basic Principles of Electrostatics | 44 |
Copyright | |
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