Electrical Engineering Materials Adrianus J. Dekker (often cited as A.J. Dekker) is a foundational textbook widely utilized in electrical and electronics engineering curricula to bridge the gap between atomic physics and practical material applications. Core Focus and Philosophy The text emphasizes a clear presentation of the basic physical processes
that determine the properties of materials rather than focusing purely on mathematical proofs. It is designed to provide engineering students with a solid background in: Atomic Interpretation
: How atomic structures dictate dielectric, magnetic, and conductive behaviors. Application-Oriented Theory
: Transitioning from theoretical concepts like quantum mechanics to practical components like transistors and rectifiers. Key Content Areas
The book is typically organized into self-contained sections, making it useful as both a primary textbook and a reference: Pearson India Atomic Structure
: Fundamentals of atoms, aggregates of atoms, and quantum mechanics (specifically the hydrogen atom model). Dielectric Properties
: Analysis of insulators in both static and alternating fields, covering permittivity and spontaneous polarization. Magnetic Properties
: Extensive discussion on diamagnetism, paramagnetism, and ferromagnetism. Conduction Mechanisms
: detailed study of the conductivity of metals and the mechanism of conduction in semiconductors. Semiconductor Devices
: Practical applications including junction rectifiers and transistors. Academic Utility Electrical Enginnering Materials Dekker | PDF - Scribd electrical engineering materials by aj dekker pdf
Electrical Engineering Materials by A.J. Dekker is a seminal textbook focused on the physical processes and models that determine the properties of materials used in electrical and electronic engineering. Core Content & Organization
The book is structured to allow readers to study specific material properties independently:
Atomic Structure: Covers hydrogen atoms, electron configurations, chemical bonds, and crystal arrangements in solids.
Dielectric Properties: Analyzes insulators in both static and alternating fields, including polarization, piezoelectricity, and ferroelectric materials.
Magnetic Properties: Explores the origin of magnetic dipoles and the classification of magnetic materials.
Conductive Properties: Discusses the conductivity of metals, thermal conductivity, and the thermoelectric effect.
Modern Materials: Often includes sections on semiconductors, superconductivity, and nanomaterials. Accessing the PDF
While the full book is protected by copyright and typically requires purchase through retailers like Amazon or PHI Publications, digital previews, outlines, and partial versions are available on several document-sharing platforms: Electrical Enginnering Materials Dekker | PDF - Scribd
Electrical Engineering Materials by Adrianus J. Dekker is a classic technical text that bridges the gap between atomic physics and practical electrical design. Originally designed for a concise one-quarter course, the book focuses on the "why" behind material behavior rather than just listing specifications. Core Philosophical Approach Electrical Engineering Materials Adrianus J
Dekker’s work is noted for using classical or semi-classical models to explain complex physical mechanisms. Instead of overwhelming students with advanced quantum mechanics, he provides a "working knowledge" that builds intuition about how microscopic processes dictate macroscopic properties. Key Topics and Structure
The book is organized into sections that allow for separate focus on dielectric, magnetic, or conductive properties.
Atomic Foundation: It begins with the atomic interpretation of solids, covering the hydrogen atom, quantum mechanics nomenclature, and the nature of chemical bonds.
Dielectric Properties: Dekker provides extensive discussions on insulators in both static and alternating fields, including a highly-regarded section on ferroelectricity and piezoelectricity.
Magnetism: The text covers magnetic dipole moments and the macroscopic viewpoint of magnetization, essential for understanding components like inductors and motors.
Conduction & Semiconductors: It details the conductivity of metals and the physical mechanisms behind semiconductors, junction rectifiers, and transistors. Legacy and Availability
Target Audience: While primarily intended for undergraduate students, its comprehensive fundamentals make it a reference for graduate-level studies.
Editions: The book has been published by major houses like Prentice-Hall and Pearson Education India.
Format: Physical copies are often available as used hardcovers on sites like AbeBooks, while digital previews and fragments can be found on academic platforms like Scribd. Electrical Enginnering Materials Dekker | PDF - Scribd Long before the smartphone revolution, Dekker laid the
Electrical Engineering Materials by A. J. Dekker is a well-regarded introductory textbook that focuses on the physical interpretation of material properties rather than practical industrial applications. It is often described by students as a foundational "bible" for understanding the basics of electrical materials. Key Highlights Focus on Fundamentals
: The book emphasizes the physical processes behind dielectric, magnetic, and conductive properties using classical and semi-classical models. Target Audience
: Primarily intended for undergraduate students in electrical and electronics engineering. Clarity of Language
: Reviewers frequently note that the book uses simple, clear English, making complex concepts easy to grasp. Visual Aids
: Includes over 150 diagrammatic illustrations, line drawings, and tables to supplement the text. Table of Contents Overview
The book is structured into logical units focusing on atomic structure and specific material behaviors: Atoms and Aggregates of Atoms
Dielectric Properties of Insulators (Static and Alternating Fields) Magnetic Properties of Materials The Conductivity of Metals Mechanism of Conduction in Semiconductors Junction Rectifiers and Transistors Pros and Cons
Electrical Engineering Materials Reviews & Ratings - Amazon.in
Here’s a proper guide to obtaining and understanding the book:
Long before the smartphone revolution, Dekker laid the groundwork for understanding PN junctions, Hall effect, and intrinsic/extrinsic semiconductors. While the technology has advanced, the fundamental physics of holes, electrons, and doping remains exactly the same as described in his text.
Dekker starts from the ground up. He reviews atomic models, quantum numbers, and the Pauli Exclusion Principle. For the engineer, this isn't just physics revision; it is the foundation for understanding why copper conducts and rubber insulates.