Electromagnetism Made Easy with Comics
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Description
Book Introduction
From Coulomb's law to Maxwell's equations
『Easy to Learn Electromagnetism Through Comics』
This book uses cartoons to explain the difficult-to-understand laws of electromagnetism in an easy-to-understand way.
Although this is not an electromagnetism textbook, it is organized to convey the fun of electromagnetic field theory that textbooks cannot, without relying on formulas as much as possible.
This book is designed to motivate and prepare readers for college-level electromagnetism studies.
『Easy to Learn Electromagnetism Through Comics』
This book uses cartoons to explain the difficult-to-understand laws of electromagnetism in an easy-to-understand way.
Although this is not an electromagnetism textbook, it is organized to convey the fun of electromagnetic field theory that textbooks cannot, without relying on formulas as much as possible.
This book is designed to motivate and prepare readers for college-level electromagnetism studies.
- You can preview some of the book's contents.
Preview
index
Chapter 1 What is Electromagnetism?
1.1 What is Electromagnetism?
1.2 Four equations representing the laws of electromagnetism
Column on Electromagnetism and Other Academic Fields
Chapter 2 Coulomb's Law and Electric Fields and Potentials
2.1 Coulomb's law
2.2 Vector fields and scalar fields
2.3 Electric field
2.4 Potential
2.5 Electric field lines
Chapter 3: Gauss's Law, Conductors and Dielectrics
3.1 Full speed density
3.2 Surface surrounding a point charge and electric flux passing through that surface
3.3 Gauss's Law
3.4 Differential form of the flux density vector and Gauss's law
3.5 conductor
3.6 Genome
About column physical quantities, units and dimensions
Periodic table of column elements Conductors, insulators
Chapter 4 Currents and Magnetic Fields
4.1 Definition of current
4.2 Ohm's Law
4.3 Definition of magnetic field
4.4 Current and Magnetic Fields
Chapter 5 Ampere's Law, Magnetic Materials
5.1 Biot-Savart's Law
5.2 Ampere's law
5.3 Rotation of vector fields and differential form of Ampere's law
5.4 Magnetic moments and magnetization of materials
5.5 Ferromagnets and permanent magnets
5.6 Railgun Principles
Electromagnetism in response to column EH
Columnar Diamagnetism and Magnetic Levitation
Chapter 6: Moving Electromagnetism and Maxwell's Equations
6.1 Electromagnetic induction
6.2 Faraday's Law of Electromagnetic Induction
6.3 Differential form of Faraday's law of electromagnetic induction
6.4 Extension of Ampere's law and the electric current
6.5 Maxwell's equations
6.6 Electromagnetic waves
Column Maxwell's Equations and Metamaterials
Appendix Vectors and Scalars
1.1 What is Electromagnetism?
1.2 Four equations representing the laws of electromagnetism
Column on Electromagnetism and Other Academic Fields
Chapter 2 Coulomb's Law and Electric Fields and Potentials
2.1 Coulomb's law
2.2 Vector fields and scalar fields
2.3 Electric field
2.4 Potential
2.5 Electric field lines
Chapter 3: Gauss's Law, Conductors and Dielectrics
3.1 Full speed density
3.2 Surface surrounding a point charge and electric flux passing through that surface
3.3 Gauss's Law
3.4 Differential form of the flux density vector and Gauss's law
3.5 conductor
3.6 Genome
About column physical quantities, units and dimensions
Periodic table of column elements Conductors, insulators
Chapter 4 Currents and Magnetic Fields
4.1 Definition of current
4.2 Ohm's Law
4.3 Definition of magnetic field
4.4 Current and Magnetic Fields
Chapter 5 Ampere's Law, Magnetic Materials
5.1 Biot-Savart's Law
5.2 Ampere's law
5.3 Rotation of vector fields and differential form of Ampere's law
5.4 Magnetic moments and magnetization of materials
5.5 Ferromagnets and permanent magnets
5.6 Railgun Principles
Electromagnetism in response to column EH
Columnar Diamagnetism and Magnetic Levitation
Chapter 6: Moving Electromagnetism and Maxwell's Equations
6.1 Electromagnetic induction
6.2 Faraday's Law of Electromagnetic Induction
6.3 Differential form of Faraday's law of electromagnetic induction
6.4 Extension of Ampere's law and the electric current
6.5 Maxwell's equations
6.6 Electromagnetic waves
Column Maxwell's Equations and Metamaterials
Appendix Vectors and Scalars
Detailed image
Publisher's Review
I recommend this to these people
Office workers who want to learn electromagnetism again
Students who find electromagnetism difficult
Features of this book
Electromagnetism is a difficult subject with many theorems and formulas and difficult to understand their relationships.
But in fact, electromagnetism starts from Coulomb's law, which we learn in high school, and ultimately can be developed by connecting various phenomena with the four Maxwell equations.
This book introduces everyday phenomena through cartoons, helping you understand Coulomb's law and Maxwell's equations in the shortest possible way.
In the appendix, we have included the concepts of vectors, scalars, and 'fields' as the minimum knowledge required before reading this book.
all.
Office workers who want to learn electromagnetism again
Students who find electromagnetism difficult
Features of this book
Electromagnetism is a difficult subject with many theorems and formulas and difficult to understand their relationships.
But in fact, electromagnetism starts from Coulomb's law, which we learn in high school, and ultimately can be developed by connecting various phenomena with the four Maxwell equations.
This book introduces everyday phenomena through cartoons, helping you understand Coulomb's law and Maxwell's equations in the shortest possible way.
In the appendix, we have included the concepts of vectors, scalars, and 'fields' as the minimum knowledge required before reading this book.
all.
GOODS SPECIFICS
- Date of issue: August 30, 2018
- Page count, weight, size: 264 pages | 530g | 182*235*20mm
- ISBN13: 9788931587166
- ISBN10: 8931587163
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