Chapter 4 | Electromagnetic Fields and Energy

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Chapter 4: Electroquasistatic fields: the superposition integral point of view (PDF)
4.0 Introduction 4.1 Irrotational field represented by scalar potential: the gradient operator and the gradient integral theorem Visualization of two-dimensional irrotational fields 4.2 Poisson's equation 4.3 Superposition principle 4.4 Fields associated with charge singularities Dipole at the origin Pair of charges at infinity having equal magnitude and opposite sign Other charge singularities 4.5 Solution of Poisson's equation for specified charge distributions Superposition integral for surface charge density Superposition integral for line charge density Two-dimensional charge and field distributions Potential of uniform dipole layer. 4.6 Electroquasistatic fields in the presence of perfect conductors Capacitance 4.7 Method of images 4.8 Charge simulation approach to boundary value problems 4.9 Summary	4.7.1: Charge induced in ground plane by overhead conductor	Demo Flash and JavaScript are required for this feature. Chapter 4.7.1: Charge Induced in Ground Plane by Overhead Conductor (demo only) > Download from iTunes U (MP4 - 7MB) > Download from Internet Archive (MP4 - 7MB)	Demo and Theory Flash and JavaScript are required for this feature. Chapter 4.7.1: Charge Induced in Ground Plane by Overhead Conductor > Download from iTunes U (MP4 - 20MB) > Download from Internet Archive (MP4 - 20MB)

TEXTBOOK CONTENTS

DEMONSTRATION TOPICS

VIDEOS -
SHORT FORM

VIDEOS -
LONG FORM

Chapter 4: Electroquasistatic fields: the superposition integral point of view (PDF)

4.0 Introduction
4.1 Irrotational field represented by scalar potential: the gradient operator and the gradient integral theorem