Introduction to the Relativity Principle
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- Wiley
More About This Title Introduction to the Relativity Principle
English
Relativity, almost a hundred years old in its classic Einsteinian form, is one of the most fascinating threads running through science from Galileo's day to ours. This book, based on a short course at the University of Sussex, presents relativity as a natural outgrowth of dynamics: the concepts are introduced through careful physical reasoning and simple mathematics, and are then applied over a wide range, well meshed with current undergraduate syllabuses. Features
* An accessible introduction through pre-Einstein relativity
* Scrupulously assessed experimental evidence (mostly modern)
* Elementary mathematics, aimed at a working acquaintance with kinematics, energy and momentum conservation, and the propagation of plane waves
* The book includes many carefully chosen examples and student problems
Introduction to the Relativity Principle is suitable for undergraduates studying physics, also as a preliminary to more formal courses designed for mathematicians.
* An accessible introduction through pre-Einstein relativity
* Scrupulously assessed experimental evidence (mostly modern)
* Elementary mathematics, aimed at a working acquaintance with kinematics, energy and momentum conservation, and the propagation of plane waves
* The book includes many carefully chosen examples and student problems
Introduction to the Relativity Principle is suitable for undergraduates studying physics, also as a preliminary to more formal courses designed for mathematicians.
English
Preliminaries.
The Relativity Principle, and its Applications in Newtonian Physics.
Einstein's Relativity Principle.
KINEMATICS.
Lorentz Transformations.
Invariant Intervals and Space-Time Diagrams.
Proper Time and Nonuniform Motion.
Four-Vectors.
Four-Acceleration.
MOMENTUM AND ENERGY.
Particle Dynamics: Momentum and Energy.
Natural Units, and the Prevalence of MeV.
Systems of Particles: Four-Momentum Conservation using Invariants.
WAVES.
Plane Waves.
Light Waves in Empty Space: Aberration and Doppler Effect.
Appendices.
Problems.
Index.
The Relativity Principle, and its Applications in Newtonian Physics.
Einstein's Relativity Principle.
KINEMATICS.
Lorentz Transformations.
Invariant Intervals and Space-Time Diagrams.
Proper Time and Nonuniform Motion.
Four-Vectors.
Four-Acceleration.
MOMENTUM AND ENERGY.
Particle Dynamics: Momentum and Energy.
Natural Units, and the Prevalence of MeV.
Systems of Particles: Four-Momentum Conservation using Invariants.
WAVES.
Plane Waves.
Light Waves in Empty Space: Aberration and Doppler Effect.
Appendices.
Problems.
Index.
