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'''Relativity''' is a fundamental theory in [[physics]] that describes the relationship between [[space]] and [[time]]. The theory was developed by [[Albert Einstein]] and is divided into two parts: [[Special Relativity]] and [[General Relativity]].<br />
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==Special Relativity==<br />
[[Special Relativity]] was introduced by Einstein in 1905 in his paper "On the Electrodynamics of Moving Bodies." This theory primarily deals with the physics of objects in uniform motion relative to each other (i.e., objects moving at constant speeds in straight lines). It introduced the concept that the laws of physics are the same for all non-accelerating observers, and it showed that the speed of [[light]] in a vacuum is the same no matter the speed at which an observer travels. As a result, time can slow down or speed up, depending on how fast one object is moving relative to another, a phenomenon known as [[time dilation]]. Length contraction and mass-energy equivalence, expressed by the famous equation E=mc², are also predictions of special relativity.<br />
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==General Relativity==<br />
[[General Relativity]], published by Einstein in 1915, is a theory of gravitation that extends special relativity and [[Newton's law of universal gravitation]]. It provides a unified description of gravity as a geometric property of [[space]] and [[time]], or [[spacetime]]. Massive objects cause a distortion in spacetime, which is felt as gravity. The predictions of general relativity include the [[perihelion precession]] of [[Mercury]], the bending of light by gravity, and the [[gravitational redshift]] of light. General relativity has also been confirmed by many experiments and observations, and it is the basis for modern astrophysical phenomena such as [[black holes]] and [[gravitational waves]].<br />
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==Experimental Evidence==<br />
Both theories of relativity have been extensively tested. Special relativity's predictions have been confirmed through experiments such as the observation of the [[time dilation]] of particles at high velocities. General relativity has been tested through observations such as the bending of light by the sun during a solar eclipse, and more recently, by the detection of gravitational waves by the [[LIGO]] and [[Virgo]] collaborations.<br />
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==Impact and Applications==<br />
The theories of relativity have had a profound impact on the development of modern physics and have numerous applications. Technologies such as [[Global Positioning System (GPS)]] rely on corrections based on both special and general relativity to provide accurate location data. Relativity is also essential in the fields of [[astrophysics]], [[nuclear energy]], and [[particle physics]].<br />
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==See Also==<br />
* [[Theory of everything]]<br />
* [[Quantum mechanics]]<br />
* [[Einstein field equations]]<br />
* [[Lorentz transformation]]<br />
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[[Category:Physics]]<br />
[[Category:Theories of physics]]<br />
[[Category:Relativity]]<br />
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