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Titre : Classical Mechanics : A Professor–student Collaboration Type de document : document électronique Auteurs : Mario Campanelli Editeur : london:IOP Publishing Année de publication : 2020 Importance : 1 vol (24-2 p.) ISBN/ISSN/EAN : 978-0-7503-2689-6 Langues : Français (fre) Catégories : Bibliothèque numérique:Physique Mots-clés : Mechanics:Textbooks
Physics:TextbooksIndex. décimale : 530-Physique Résumé :
Classical Mechanics: A professor–student collaboration is a textbook tailored for undergraduate physics students embarking on a first-year module in Newtonian mechanics. This book was written as a unique collaboration between Mario Campanelli and students that attended his course in classical mechanics at University College London. Taking his lecture notes as a starting point, and reflecting on their own experiences studying the material, the students worked together with Campanelli to produce a comprehensive course text that covers a familiar topic from a new perspective.All the fundamental topics are included, starting with an overview of the core mathematics and then moving on to statics, kinematics, dynamics and non-inertial frames, as well as fluid mechanics, which is often overlooked in standard university courses. Clear explanations and step-by-step examples are provided throughout to break down complicated ideas that can be taken for granted in other standard texts, giving students the expertise to confidently tackle their university tests and fully grasp important concepts that underpin all physics and engineering courses. Key Features Written in collaboration with students, offering a revolutionary method of delivering knowledge between peers Based on the lectures of UCL professor Mario Campanelli, who has 25 years of teaching experience Clearly explains the physical concepts and the mathematical background behind classical mechanics Exercises in each chapter allow students to test their understanding of the conceptsNote de contenu :
Contents
Preface xii
1 Mathematical preliminaries 1-1
1.0 Introduction 1-1
1.1 Vectors 1-1
1.2 Complex numbers 1-14
1.3 Calculus 1-16
1.4 Differential equations 1-29
2 Newton’s laws 2-1
2.0 Introduction 2-1
2.1 Newton’s laws of motion 2-1
2.2 The concept of force 2-5
2.3 Motion under a constant force 2-15
2.4.1 Projectiles without air resistance 2-27
2.5 Momentum and impulse 2-33
2.6 Conservation of momentum for isolated systems 2-34
3 Kinematic relations 3-1
3.0 Introduction: what is energy? 3-1
3.1 Work and energy 3-1
3.2 Relationship between work and kinetic energy 3-5
3.3 Power 3-6
3.4 Potential energy and conservative forces 3-8
4 Oscillatory motion 4-1
4.0 Introduction 4-1
4.1 Simple harmonic motion 4-1
4.1.1 Energy of simple harmonic motion 4-7
4.2 Damped harmonic motion 4-9
4.3 Driven and damped harmonic motion 4-13
4.4 Coupled oscillators 4-23
5 Angular momentum and central forces 5-1
5.0 Introduction 5-1
5.1 Polar coordinates 5-1
5.2 Circular motion 5-4
5.3 Angular momentum 5-6
Classical Mechanics
5.4 Central forces 5-8
5.4.1 Potential energy for central forces 5-11
6 Centre of mass and collisions 6-1
6.0 Introduction 6-1
6.1 The centre of mass 6-1
6.2 Collisions 6-9
7 Orbits 7-1
7.0 Introduction: a historical note 7-1
7.1 Orbital forces 7-2
7.1.1 Potentials 7-3
7.2 Circular motion approximation 7-4
7.3 Motion under the inverse square law of force 7-6
7.4 Orbits under an attractive force: elliptical orbits and Kepler’s laws 7-11
7.5 Orbits with positive energy: unbound orbits 7-18
7.6 Reduced mass and the two-body problem 7-20
7.7 Variable mass problems 7-23
8 Rigid bodies 8-1
8.0 Introduction 8-1
8.1 Preliminaries 8-1
8.2 Centre of mass 8-4
8.3 Flat object in x–y plane 8-6
8.4 General motion of a non-planar object in 3D space 8-20
9 Accelerating frames of reference 9-1
9.0 Accelerating reference frames 9-1
9.1 Fictitious forces 9-6
10 Fluid mechanics 10-1
10.0 Introduction 10-1
10.1 Hydrostatics 10-2
10.2 Hydrodynamics—fluids in motion 10-5
11 Solutions to Chapter 1: Mathematical preliminaries 11-1
12 Solutions to Chapter 2: Newton’s laws 12-1
13 Selected solutions to Chapter 3: Kinematic relations 13-1
14 Selected solutions to Chapter 4: Oscillatory motion 14-1
15 Selected solutions to Chapter 5: Angular momentum and central forces 15-1
16 Solutions to Chapter 6: Centre of mass and collisions 16-1
17 Solutions to Chapter 7: Orbits 17-1
18 Selected solutions to Chapter 8: Rigid bodies 18-1
19 Selected solutions to Chapter 9: Accelerating frames of reference 19-1
20 Solutions to Chapter 10: Fluid mechanics 20-1
Appendices
Appendix A A-1
Appendix B B-1
Appendix C
Côte titre : E-Fs/0020 En ligne : https://sciences-courses.univ-setif.dz/login/index.php Classical Mechanics : A Professor–student Collaboration [document électronique] / Mario Campanelli . - [S.l.] : london:IOP Publishing, 2020 . - 1 vol (24-2 p.).
ISBN : 978-0-7503-2689-6
Langues : Français (fre)
Catégories : Bibliothèque numérique:Physique Mots-clés : Mechanics:Textbooks
Physics:TextbooksIndex. décimale : 530-Physique Résumé :
Classical Mechanics: A professor–student collaboration is a textbook tailored for undergraduate physics students embarking on a first-year module in Newtonian mechanics. This book was written as a unique collaboration between Mario Campanelli and students that attended his course in classical mechanics at University College London. Taking his lecture notes as a starting point, and reflecting on their own experiences studying the material, the students worked together with Campanelli to produce a comprehensive course text that covers a familiar topic from a new perspective.All the fundamental topics are included, starting with an overview of the core mathematics and then moving on to statics, kinematics, dynamics and non-inertial frames, as well as fluid mechanics, which is often overlooked in standard university courses. Clear explanations and step-by-step examples are provided throughout to break down complicated ideas that can be taken for granted in other standard texts, giving students the expertise to confidently tackle their university tests and fully grasp important concepts that underpin all physics and engineering courses. Key Features Written in collaboration with students, offering a revolutionary method of delivering knowledge between peers Based on the lectures of UCL professor Mario Campanelli, who has 25 years of teaching experience Clearly explains the physical concepts and the mathematical background behind classical mechanics Exercises in each chapter allow students to test their understanding of the conceptsNote de contenu :
Contents
Preface xii
1 Mathematical preliminaries 1-1
1.0 Introduction 1-1
1.1 Vectors 1-1
1.2 Complex numbers 1-14
1.3 Calculus 1-16
1.4 Differential equations 1-29
2 Newton’s laws 2-1
2.0 Introduction 2-1
2.1 Newton’s laws of motion 2-1
2.2 The concept of force 2-5
2.3 Motion under a constant force 2-15
2.4.1 Projectiles without air resistance 2-27
2.5 Momentum and impulse 2-33
2.6 Conservation of momentum for isolated systems 2-34
3 Kinematic relations 3-1
3.0 Introduction: what is energy? 3-1
3.1 Work and energy 3-1
3.2 Relationship between work and kinetic energy 3-5
3.3 Power 3-6
3.4 Potential energy and conservative forces 3-8
4 Oscillatory motion 4-1
4.0 Introduction 4-1
4.1 Simple harmonic motion 4-1
4.1.1 Energy of simple harmonic motion 4-7
4.2 Damped harmonic motion 4-9
4.3 Driven and damped harmonic motion 4-13
4.4 Coupled oscillators 4-23
5 Angular momentum and central forces 5-1
5.0 Introduction 5-1
5.1 Polar coordinates 5-1
5.2 Circular motion 5-4
5.3 Angular momentum 5-6
Classical Mechanics
5.4 Central forces 5-8
5.4.1 Potential energy for central forces 5-11
6 Centre of mass and collisions 6-1
6.0 Introduction 6-1
6.1 The centre of mass 6-1
6.2 Collisions 6-9
7 Orbits 7-1
7.0 Introduction: a historical note 7-1
7.1 Orbital forces 7-2
7.1.1 Potentials 7-3
7.2 Circular motion approximation 7-4
7.3 Motion under the inverse square law of force 7-6
7.4 Orbits under an attractive force: elliptical orbits and Kepler’s laws 7-11
7.5 Orbits with positive energy: unbound orbits 7-18
7.6 Reduced mass and the two-body problem 7-20
7.7 Variable mass problems 7-23
8 Rigid bodies 8-1
8.0 Introduction 8-1
8.1 Preliminaries 8-1
8.2 Centre of mass 8-4
8.3 Flat object in x–y plane 8-6
8.4 General motion of a non-planar object in 3D space 8-20
9 Accelerating frames of reference 9-1
9.0 Accelerating reference frames 9-1
9.1 Fictitious forces 9-6
10 Fluid mechanics 10-1
10.0 Introduction 10-1
10.1 Hydrostatics 10-2
10.2 Hydrodynamics—fluids in motion 10-5
11 Solutions to Chapter 1: Mathematical preliminaries 11-1
12 Solutions to Chapter 2: Newton’s laws 12-1
13 Selected solutions to Chapter 3: Kinematic relations 13-1
14 Selected solutions to Chapter 4: Oscillatory motion 14-1
15 Selected solutions to Chapter 5: Angular momentum and central forces 15-1
16 Solutions to Chapter 6: Centre of mass and collisions 16-1
17 Solutions to Chapter 7: Orbits 17-1
18 Selected solutions to Chapter 8: Rigid bodies 18-1
19 Selected solutions to Chapter 9: Accelerating frames of reference 19-1
20 Solutions to Chapter 10: Fluid mechanics 20-1
Appendices
Appendix A A-1
Appendix B B-1
Appendix C
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Titre : A Concise Introduction to Thermodynamics for Physicists Type de document : document électronique Auteurs : Patricia Faisca Editeur : Boca Raton : CRC Press Année de publication : 2022 Importance : 1 vol (222 p.) ISBN/ISSN/EAN : 978-1-00-063005-3 Langues : Français (fre) Catégories : Bibliothèque numérique:Physique Mots-clés : Thermodynamics Résumé :
This introductory textbook provides a synthetic overview of the laws and formal aspects of thermodynamics and was designed for undergraduate students in physics, and in the physical sciences. Language and notation have been kept as simple as possible throughout the text.While this is a self-contained text on thermodynamics (i.e. focused on macroscopic physics), emphasis is placed on the microscopic underlying model to facilitate the understanding of key concepts such as entropy, and motivate a future course on statistical physics. This book will equip the reader with an understanding of the scope of this discipline and of its applications to a variety of physical systems Throughout the text readers are continuously challenged with conceptual questions that prompt reflection and facilitate the understanding of subtle issues. Each chapter ends by presenting worked problems to support and motivate self-study, in addition to a series of proposed exercises whose solutions are available as supplementary material. Features Pedagogically designed, including illustrations, keyword definitions, highlights, summaries of key ideas and concepts, and boxes with additional topics that complement the materials presented in the main text. Presents active reading strategies, such as conceptual problems, discussion questions, worked examples with comments, end of chapter problems, and further reading to stimulate engagement with the text. Guides the reader with ease through a difficult subject by providing extra help whenever needed to overcome the more demanding technical and conceptual aspects. Solutions Manual available upon qualifying course adoption.Note de contenu :
Contents
Preface
Contributors
SECTION I: The Laws of Thermodynamics
Chapter 1: Thermodynamics Key Concepts
Chapter 2: The First Law
Chapter 3: The Second Law
Chapter 4: The Third Law
SECTION II: The Structure of Thermodynamics
Chapter 5: Thermodynamic Potentials
Chapter 6: Thermodynamics of Extensive Systems
SECTION III: Applications
Chapter 7: Phase Transitions
Chapter 8: Magnetic Systems
Chapter 9: Thermal Radiation
IndexCôte titre : E-Fs/0018 En ligne : https://sciences-courses.univ-setif.dz/login/index.php A Concise Introduction to Thermodynamics for Physicists [document électronique] / Patricia Faisca . - Boca Raton : CRC Press, 2022 . - 1 vol (222 p.).
ISBN : 978-1-00-063005-3
Langues : Français (fre)
Catégories : Bibliothèque numérique:Physique Mots-clés : Thermodynamics Résumé :
This introductory textbook provides a synthetic overview of the laws and formal aspects of thermodynamics and was designed for undergraduate students in physics, and in the physical sciences. Language and notation have been kept as simple as possible throughout the text.While this is a self-contained text on thermodynamics (i.e. focused on macroscopic physics), emphasis is placed on the microscopic underlying model to facilitate the understanding of key concepts such as entropy, and motivate a future course on statistical physics. This book will equip the reader with an understanding of the scope of this discipline and of its applications to a variety of physical systems Throughout the text readers are continuously challenged with conceptual questions that prompt reflection and facilitate the understanding of subtle issues. Each chapter ends by presenting worked problems to support and motivate self-study, in addition to a series of proposed exercises whose solutions are available as supplementary material. Features Pedagogically designed, including illustrations, keyword definitions, highlights, summaries of key ideas and concepts, and boxes with additional topics that complement the materials presented in the main text. Presents active reading strategies, such as conceptual problems, discussion questions, worked examples with comments, end of chapter problems, and further reading to stimulate engagement with the text. Guides the reader with ease through a difficult subject by providing extra help whenever needed to overcome the more demanding technical and conceptual aspects. Solutions Manual available upon qualifying course adoption.Note de contenu :
Contents
Preface
Contributors
SECTION I: The Laws of Thermodynamics
Chapter 1: Thermodynamics Key Concepts
Chapter 2: The First Law
Chapter 3: The Second Law
Chapter 4: The Third Law
SECTION II: The Structure of Thermodynamics
Chapter 5: Thermodynamic Potentials
Chapter 6: Thermodynamics of Extensive Systems
SECTION III: Applications
Chapter 7: Phase Transitions
Chapter 8: Magnetic Systems
Chapter 9: Thermal Radiation
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Titre : Diffusion, Segregation and Solid-state Phase Transformations : Course Reminders and Solved Problems Type de document : document électronique Auteurs : Didier Blavette ; Thomas Philippe Editeur : France : EDP Sciences Année de publication : 2022 Importance : 1 vol (258 p.) ISBN/ISSN/EAN : 978-2-7598-2744-2 Langues : Français (fre) Catégories : Bibliothèque numérique:Physique Mots-clés : Materials science:Problems, exercises, etc
Thermodynamics:Problems, exercises, etcIndex. décimale : 530 - Physique Résumé :
This book contains a set of solved problems on the thermodynamics of phase transformations, diffusion and kinetics in alloys. These problems, preceded by a reminder of the course, are completed by answers detailing each stage of the calculations. The topics covered in the book (precipitation, ordering, segregation on crystalline defects, growth of a thin film, oxidation, creep, doping of semiconductors, etc.) are essential for the design of materials and the optimisation of heat treatments and properties, whether for structural materials (steels, Ni, Al, Cu, Ti-based alloys, etc.) or functional materials (semiconductors, alloys and magnetic multilayers, etc.). They often lead to an industrial problem (aeronautics, nuclear power plants, microelectronics, etc.). This book is intended for teachers and students of bachelor's and master's degrees, but also for engineering students, PhD students and researchers.Note de contenu :
Table of Contents
Diffusion, Segregation and Solid-State Phase Transformations
Preface
Contents
Thermodynamics of Equilibria and Phase Diagrams
Course Reminders
Problems
Diffusion and Transport in Solids
Course Reminders
Problems
Kinetics of Formation of a New Phase
Course Reminder
Problems
Constants
References
Index
Côte titre : E-Fs/0021 En ligne : https://sciences-courses.univ-setif.dz/login/index.php Diffusion, Segregation and Solid-state Phase Transformations : Course Reminders and Solved Problems [document électronique] / Didier Blavette ; Thomas Philippe . - [S.l.] : France : EDP Sciences, 2022 . - 1 vol (258 p.).
ISBN : 978-2-7598-2744-2
Langues : Français (fre)
Catégories : Bibliothèque numérique:Physique Mots-clés : Materials science:Problems, exercises, etc
Thermodynamics:Problems, exercises, etcIndex. décimale : 530 - Physique Résumé :
This book contains a set of solved problems on the thermodynamics of phase transformations, diffusion and kinetics in alloys. These problems, preceded by a reminder of the course, are completed by answers detailing each stage of the calculations. The topics covered in the book (precipitation, ordering, segregation on crystalline defects, growth of a thin film, oxidation, creep, doping of semiconductors, etc.) are essential for the design of materials and the optimisation of heat treatments and properties, whether for structural materials (steels, Ni, Al, Cu, Ti-based alloys, etc.) or functional materials (semiconductors, alloys and magnetic multilayers, etc.). They often lead to an industrial problem (aeronautics, nuclear power plants, microelectronics, etc.). This book is intended for teachers and students of bachelor's and master's degrees, but also for engineering students, PhD students and researchers.Note de contenu :
Table of Contents
Diffusion, Segregation and Solid-State Phase Transformations
Preface
Contents
Thermodynamics of Equilibria and Phase Diagrams
Course Reminders
Problems
Diffusion and Transport in Solids
Course Reminders
Problems
Kinetics of Formation of a New Phase
Course Reminder
Problems
Constants
References
Index
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Titre : Electromagnetic Fields : Theory and Applications Type de document : document électronique Auteurs : Ahmad Shahid Khan ; Saurabh Kumar Mukerji Editeur : Boca Raton : CRC Press Année de publication : 2020 Importance : 1 vol (786 p.) ISBN/ISSN/EAN : 978-1-00-016851-8 Langues : Français (fre) Catégories : Bibliothèque numérique:Physique Mots-clés : Electromagnetic fields:Textbooks Index. décimale : 537 Électricité, électronique (physique de l'électricité et de l'électromagnétisme) Résumé :
The study of electromagnetic field theory is required for proper understanding of every device wherein electricity is used for operation. The proposed textbook on electromagnetic fields covers all the generic and unconventional topics including electrostatic boundary value problems involving two- and three-dimensional Laplacian fields and one- and two- dimensional Poissonion fields, magnetostatic boundary value problems, eddy currents, and electromagnetic compatibility. The subject matter is supported by practical applications, illustrations to supplement the theory, solved numerical problems, solutions manual and Powerpoint slides including appendices and mathematical relations. Aimed at undergraduate, senior undergraduate students of electrical and electronics engineering, it: Presents fundamental concepts of electromagnetic fields in a simplified manner Covers one two- and three-dimensional electrostatic boundary value problems involving Laplacian fields and Poissonion fields Includes exclusive chapters on eddy currents and electromagnetic compatibility Discusses important aspects of magneto static boundary value problems Explores all the basic vector algebra and vector calculus along with couple of two- and three-dimensional problemsNote de contenu :
Table of Contents
Preface
Authors
Chapter 1 Introduction
Chapter 2 Field Applications
Coordinate Systems and Vector Algebra
Chapter 4 Vector Calculus
Chapter 5 Electric Field Intensity
Chapter 6 Electric Flux Density
Chapter 7 Potential and Potential Energy
Chapter 8 Electrical Field in Materials
Chapter 9 Electrostatic Boundary Value Problems Involving Laplacian Fields
Chapter 10 Electrostatic Boundary Value Problems Involving Poisson’s Fields
Chapter 11 Steady Magnetic Fields
Chapter 12 Fields in Magnetic Materials
Chapter 13 Magnetic Circuits
Chapter 14 Magnetostatic Boundary Value Problems
Chapter 15 Time-Varying Fields
Chapter 16 Electromagnetic Waves
Chapter 17 Reflection and Refraction of Electromagnetic Waves
Chapter 18 Transmission Lines
Chapter 19 Waveguides and Cavity Resonators
Chapter 20 Radiation Mechanism
Chapter 21 Eddy Currents
Chapter 22 Electromagnetic Compatibility
IndexCôte titre : E-Fs/0022 En ligne : https://sciences-courses.univ-setif.dz/login/index.php Electromagnetic Fields : Theory and Applications [document électronique] / Ahmad Shahid Khan ; Saurabh Kumar Mukerji . - Boca Raton : CRC Press, 2020 . - 1 vol (786 p.).
ISBN : 978-1-00-016851-8
Langues : Français (fre)
Catégories : Bibliothèque numérique:Physique Mots-clés : Electromagnetic fields:Textbooks Index. décimale : 537 Électricité, électronique (physique de l'électricité et de l'électromagnétisme) Résumé :
The study of electromagnetic field theory is required for proper understanding of every device wherein electricity is used for operation. The proposed textbook on electromagnetic fields covers all the generic and unconventional topics including electrostatic boundary value problems involving two- and three-dimensional Laplacian fields and one- and two- dimensional Poissonion fields, magnetostatic boundary value problems, eddy currents, and electromagnetic compatibility. The subject matter is supported by practical applications, illustrations to supplement the theory, solved numerical problems, solutions manual and Powerpoint slides including appendices and mathematical relations. Aimed at undergraduate, senior undergraduate students of electrical and electronics engineering, it: Presents fundamental concepts of electromagnetic fields in a simplified manner Covers one two- and three-dimensional electrostatic boundary value problems involving Laplacian fields and Poissonion fields Includes exclusive chapters on eddy currents and electromagnetic compatibility Discusses important aspects of magneto static boundary value problems Explores all the basic vector algebra and vector calculus along with couple of two- and three-dimensional problemsNote de contenu :
Table of Contents
Preface
Authors
Chapter 1 Introduction
Chapter 2 Field Applications
Coordinate Systems and Vector Algebra
Chapter 4 Vector Calculus
Chapter 5 Electric Field Intensity
Chapter 6 Electric Flux Density
Chapter 7 Potential and Potential Energy
Chapter 8 Electrical Field in Materials
Chapter 9 Electrostatic Boundary Value Problems Involving Laplacian Fields
Chapter 10 Electrostatic Boundary Value Problems Involving Poisson’s Fields
Chapter 11 Steady Magnetic Fields
Chapter 12 Fields in Magnetic Materials
Chapter 13 Magnetic Circuits
Chapter 14 Magnetostatic Boundary Value Problems
Chapter 15 Time-Varying Fields
Chapter 16 Electromagnetic Waves
Chapter 17 Reflection and Refraction of Electromagnetic Waves
Chapter 18 Transmission Lines
Chapter 19 Waveguides and Cavity Resonators
Chapter 20 Radiation Mechanism
Chapter 21 Eddy Currents
Chapter 22 Electromagnetic Compatibility
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Titre : Electromagnetic Theory : T Type de document : document électronique Auteurs : Oliver Heaviside Editeur : Providence : AMS Année de publication : 2021 Importance : 1 vol (504 p.) ISBN/ISSN/EAN : 978-1-4704-6408-0 Langues : Français (fre) Catégories : Bibliothèque numérique:Physique Mots-clés : Electromagnetic theory
ElectromagnetismIndex. décimale : 537 - Électricité, électronique (physique de l'électricité et de l'électromagnétisme) Note de contenu :
Table of Contents
Front Cover
PREFACE TO THE THIRD EDITION
OLIVER HEAVISIDE
PREFACE.
CONTENTS.
CHAPTER I. INTRODUCTION
CHAPTER II. OUTLINE OF THE ELECTROMAGNETIC CONNECTIONS.
APPENDIX.
CHAPTER III. THE ELEMENTS OF VECTORIAL ALGEBRA AND ANALYSIS.
CHAPTER IV. THEORY OF PLANE ELECTROMAGNETIC WAVES
APPENDIX B. A GRAVITATIONAL AND ELECTROMAGNETICANALOGY.
Côte titre : E-Fs/0023 En ligne : https://sciences-courses.univ-setif.dz/login/index.php Electromagnetic Theory : T [document électronique] / Oliver Heaviside . - [S.l.] : Providence : AMS, 2021 . - 1 vol (504 p.).
ISBN : 978-1-4704-6408-0
Langues : Français (fre)
Catégories : Bibliothèque numérique:Physique Mots-clés : Electromagnetic theory
ElectromagnetismIndex. décimale : 537 - Électricité, électronique (physique de l'électricité et de l'électromagnétisme) Note de contenu :
Table of Contents
Front Cover
PREFACE TO THE THIRD EDITION
OLIVER HEAVISIDE
PREFACE.
CONTENTS.
CHAPTER I. INTRODUCTION
CHAPTER II. OUTLINE OF THE ELECTROMAGNETIC CONNECTIONS.
APPENDIX.
CHAPTER III. THE ELEMENTS OF VECTORIAL ALGEBRA AND ANALYSIS.
CHAPTER IV. THEORY OF PLANE ELECTROMAGNETIC WAVES
APPENDIX B. A GRAVITATIONAL AND ELECTROMAGNETICANALOGY.
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