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{{Redirect|Relativity}} | |||
{{Wikisourcepar|Relativity: The Special and General Theory}} | |||
]'s '''theory of relativity''', or simply '''relativity''', refers specifically to two theories: ] and ]. As a field of study, relativity also includes metric ] in which special relativity applies locally. | |||
The term "relativity" was coined by ] in ] to emphasize how special relativity (which at that time was the only relativity theory) uses the ]. | |||
==Special relativity== | |||
{{main|Special relativity}} | |||
'''Albert Einstein''''s ] paper "]" introduced the ''special theory of relativity''. Special relativity considers that observers in ]s, which are in uniform motion relative to one another, cannot perform any experiment to determine which one of them is "stationary". This is known as the ]. While this principle was not new to Albert Einstein's work, he found that including ] in this principle required a new formalism with many surprising consequences. In particular, it required the ] in a ] to be the same for all these observers, regardless of their motion or the motion of the source of the ]. | |||
One of the strengths of special relativity is that it can be derived from only two premises: | |||
* The laws of physics are the same in any inertial frame of reference. This means that the laws of physics observed by a hypothetical observer traveling with a relativistic particle must be the same as those observed by an observer who is stationary in the laboratory. | |||
* The speed of light in a vacuum is constant (specifically, 299,792,458 meters per second). | |||
==General relativity== | |||
{{main|General relativity}} | |||
General relativity was developed by Einstein in the years ] - ]. General relativity is a geometrical theory which postulates that the presence of ] "curves" ], and this ] affects the path of free particles (and even the path of light). It uses the mathematics of ] and ]s in order to describe ] without the use of the force of ]. This theory considers all observers to be equivalent, not only those moving with uniform speed. | |||
==See also== | |||
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*] including ] | |||
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==References== | |||
See the ] and the ]. | |||
==External links== | |||
* — An open access, peer-referred, solely online physics journal publishing invited reviews covering all areas of relativity research. | |||
* — A complete online course on Relativity. | |||
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* — A terse dose of insight on the subject. | |||
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* — A basic introduction to concepts of Special and General Relativity, as well as astrophysics. | |||
* — A short course offered at MIT. | |||
* from the University of New South Wales. | |||
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Revision as of 19:23, 23 June 2006
"Relativity" redirects here. For other uses, see Relativity (disambiguation).Albert Einstein's theory of relativity, or simply relativity, refers specifically to two theories: special relativity and general relativity. As a field of study, relativity also includes metric theories of gravitation in which special relativity applies locally.
The term "relativity" was coined by Max Planck in 1908 to emphasize how special relativity (which at that time was the only relativity theory) uses the principle of relativity.
Special relativity
Main article: Special relativityAlbert Einstein's 1905 paper "On the Electrodynamics of Moving Bodies" introduced the special theory of relativity. Special relativity considers that observers in inertial reference frames, which are in uniform motion relative to one another, cannot perform any experiment to determine which one of them is "stationary". This is known as the principle of relativity. While this principle was not new to Albert Einstein's work, he found that including electromagnetism in this principle required a new formalism with many surprising consequences. In particular, it required the speed of light in a vacuum to be the same for all these observers, regardless of their motion or the motion of the source of the light.
One of the strengths of special relativity is that it can be derived from only two premises:
- The laws of physics are the same in any inertial frame of reference. This means that the laws of physics observed by a hypothetical observer traveling with a relativistic particle must be the same as those observed by an observer who is stationary in the laboratory.
- The speed of light in a vacuum is constant (specifically, 299,792,458 meters per second).
General relativity
Main article: General relativityGeneral relativity was developed by Einstein in the years 1911 - 1915. General relativity is a geometrical theory which postulates that the presence of matter "curves" spacetime, and this curvature affects the path of free particles (and even the path of light). It uses the mathematics of differential geometry and tensors in order to describe gravitation without the use of the force of gravity. This theory considers all observers to be equivalent, not only those moving with uniform speed.
See also
- List of publications in physics: Theory of relativity
- Special relativity including Introduction to special relativity
- General relativity
- Principle of relativity
References
See the special relativity references and the general relativity references.
External links
- Living Reviews in Relativity — An open access, peer-referred, solely online physics journal publishing invited reviews covering all areas of relativity research.
- Reflections on Relativity — A complete online course on Relativity.
- Relativity explained in words of four letters or less
- Briefing on Einstein's Theory of Relativity — A terse dose of insight on the subject.
- On the Electrodynamics of Moving Bodies
- Special Relativity Simulator
- A Relativity Tutorial at Caltech — A basic introduction to concepts of Special and General Relativity, as well as astrophysics.
- Relativity Gravity and Cosmology — A short course offered at MIT.
- Relativity in film clips and animations from the University of New South Wales.
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