Richard E. Haskell

Special Relativity

and

Maxwell's Equations

Richard E. Haskell

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Table of Contents

Preface

I. SPACE AND TIME

1. Reference Frames

2. The Galilean Transformation

3. Velocity Transformation

II. RELATIVISTIC KINEMATICS

4. The Principle of Relativity

5. The Nature of Light

6. The Nature of Time

7. Time Dilation

8. Length Contraction

9. The Lorentz Transformation

10. Relativistic Velocity Transformation

11. Vector Representation of the Lorentz Transformation

III. RELATIVISTIC DYNAMICS

12. Relativistic Momentum

13. Relativistic Energy

14. Transformation of Momentum and Energy

15. Transformation Law for Force

IV. MAXWELL’S EQUATIONS

16. Coulomb’s Law

17. The Lorentz Force

18. Maxwell’s Equations

19. Discussion

References

Preface

The material in this report was originally written as class notes in 1967 for a course I taught in electric and magnetic fields. The derivation of Maxwell’s equations from special relativity and Coulomb’s law was developed at that time in collaboration with Dr. Carl T. Case who was then at the Air Force Avionics Laboratory at Wright-Patterson Air Force Base. We had served in the Air Force together between 1963 and 1966 and had become intrigued with the possible limitations of Maxwell’s equations based on this derivation. After 1970 I moved on to work in other areas including coherent optics, pattern recognition, microprocessors, and embedded systems. Last year I came across this material when cleaning out my office and decided to reprint it in electronic form and make it available on my web site.

If you are interested in understanding special relativity, then you should read Parts I – III. The derivation of Maxwell’s equations from special relativity and Coulomb’s law is given in Part IV. If you just want to find out why this topic is so intriguing then skip directly to the discussion in Section 19.

R. E. Haskell

July 2003