Elements of the Mathematical Theory of Electricity and Magnetism
The British physicist Sir Joseph John Thomson, the discoverer of the electron, published the first edition of his Elements of the Mathematical Theory of Electricity and Magnetism in 1895; this fourth edition was issued in 1909, three years after he was awarded the Nobel Prize in Physics for his theoretical and experimental investigations on the conduction of electricity by gases. In this book for students his intention is to give 'an account of the fundamental principles of the mathematical theory of electricity and magnetism and their more important applications, using only simple mathematics.' Starting at the basic level of describing electrical phenomena such as rubbing a stick of sealing wax with cloth to produce a charge, he guides the reader through electrostatics, induction, magnetism, thermoelectric currents and the theory of light. This textbook, by one of the greatest scientists of his day, is still a fascinating introduction to the topic.
1100690886
Elements of the Mathematical Theory of Electricity and Magnetism
The British physicist Sir Joseph John Thomson, the discoverer of the electron, published the first edition of his Elements of the Mathematical Theory of Electricity and Magnetism in 1895; this fourth edition was issued in 1909, three years after he was awarded the Nobel Prize in Physics for his theoretical and experimental investigations on the conduction of electricity by gases. In this book for students his intention is to give 'an account of the fundamental principles of the mathematical theory of electricity and magnetism and their more important applications, using only simple mathematics.' Starting at the basic level of describing electrical phenomena such as rubbing a stick of sealing wax with cloth to produce a charge, he guides the reader through electrostatics, induction, magnetism, thermoelectric currents and the theory of light. This textbook, by one of the greatest scientists of his day, is still a fascinating introduction to the topic.
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Elements of the Mathematical Theory of Electricity and Magnetism

Elements of the Mathematical Theory of Electricity and Magnetism

by John Joseph Thomson
Elements of the Mathematical Theory of Electricity and Magnetism

Elements of the Mathematical Theory of Electricity and Magnetism

by John Joseph Thomson

Overview

The British physicist Sir Joseph John Thomson, the discoverer of the electron, published the first edition of his Elements of the Mathematical Theory of Electricity and Magnetism in 1895; this fourth edition was issued in 1909, three years after he was awarded the Nobel Prize in Physics for his theoretical and experimental investigations on the conduction of electricity by gases. In this book for students his intention is to give 'an account of the fundamental principles of the mathematical theory of electricity and magnetism and their more important applications, using only simple mathematics.' Starting at the basic level of describing electrical phenomena such as rubbing a stick of sealing wax with cloth to produce a charge, he guides the reader through electrostatics, induction, magnetism, thermoelectric currents and the theory of light. This textbook, by one of the greatest scientists of his day, is still a fascinating introduction to the topic.

Product Details

ISBN-13: 9781108004909
Publisher: Cambridge University Press
Publication date: 07/20/2009
Series: Cambridge Library Collection - Mathematics
Edition description: 4th Revised ed.
Pages: 564
Product dimensions: 5.98(w) x 9.02(h) x 1.26(d)

Table of Contents

1. General principles of electrostatics; 2. Lines of force; 3. Capacity of conductors; 4. Specific inductive capacity; 5. Electrical images and inversion; 6. Magnetism; 7. Terrestrial magnetism; 8. Magnetic induction; 9. Electric currents; 10. Magnetic force due to currents; 11. Electromagnetic induction; 12. Electrical units; 13. Dieletric currents and the electromagnetic theory of light; 14. Thermoelectric currents; 15. The properties of moving electric charges; Index.
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Science & Technology
Physics
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Electromagnetism - Electricity
Electromagnetism - Magnetism
Science & Technology
Physics
Electromagnetism
Electromagnetism - Electricity
Electromagnetism - Magnetism

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