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principle of relativity
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{{Special relativity sidebar}}In physics, the principle of relativity is the requirement that the equations describing the laws of physics have the same form in all admissible frames of reference.For example, in the framework of special relativity the Maxwell equations have the same form in all inertial frames of reference. In the framework of general relativity the Maxwell equations or the Einstein field equations have the same form in arbitrary frames of reference.Several principles of relativity have been successfully applied throughout science, whether implicitly (as in Newtonian mechanics) or explicitly (as in Albert Einstein's special relativity and general relativity).

## Basic concepts

Certain principles of relativity have been widely assumed in most scientific disciplines. One of the most widespread is the belief that any law of nature should be the same at all times; and scientific investigations generally assume that laws of nature are the same regardless of the person measuring them. These sorts of principles have been incorporated into scientific inquiry at the most fundamental of levels.Any principle of relativity prescribes a symmetry in natural law: that is, the laws must look the same to one observer as they do to another. According to a theoretical result called Noether's theorem, any such symmetry will also imply a conservation law alongside.BOOK, Classical Mechanics: Hamiltonian and Lagrangian Formalism, Alexei, Deriglazov, Springer, 2010, 978-3-642-14037-2, 111,weblink Extract of page 111BOOK, The Noether Theorems: Invariance and Conservation Laws in the Twentieth Century, Bertram E., Schwarzbach, Yvette, Kosmann-Schwarzbach, Yvette Kosmann-Schwarzbach, Springer, 2010, 0-387-87868-8, 174,weblink Extract of page 174 For example, if two observers at different times see the same laws, then a quantity called energy will be conserved. In this light, relativity principles make testable predictions about how nature behaves, and are not just statements about how scientists should write laws.

## Special principle of relativity

{{see also|Inertial frame of reference}}According to the first postulate of the special theory of relativity:"MEMBERWIDE">AUTHOR=EINSTEIN, A., LORENTZ, H. A., MINKOWSKI, H., AND WEYL, H., 111publisher=Dover Publications, Mineola, NY, 1952, 1923, Arnold Sommerfeld, 0-486-60081-5, {{Quotation|Special principle of relativity: If a system of coordinates K is chosen so that, in relation to it, physical laws hold good in their simplest form, the same laws hold good in relation to any other system of coordinates K' moving in uniform translation relatively to K.|Albert Einstein: The Foundation of the General Theory of Relativity, Part A, Â§1}}This postulate defines an inertial frame of reference.The special principle of relativity states that physical laws should be the same in every inertial frame of reference, but that they may vary across non-inertial ones. This principle is used in both Newtonian mechanics and the theory of special relativity. Its influence in the latter is so strong that Max Planck named the theory after the principle.BOOK, Einstein's Pathway to the Special Theory of Relativity, Galina, Weistein, Cambridge Scholars Publishing, 2015, 978-1-4438-7889-0, 272,weblink Extract of page 272The principle requires physical laws to be the same for any body moving at constant velocity as they are for a body at rest. A consequence is that an observer in an inertial reference frame cannot determine an absolute speed or direction of travel in space, and may only speak of speed or direction relative to some other object.The principle does not extend to non-inertial reference frames because those frames do not, in general experience, seem to abide by the same laws of physics. In classical physics, fictitious forces are used to describe acceleration in non-inertial reference frames.

### In Newtonian mechanics

The special principle of relativity was first explicitly enunciated by Galileo Galilei in 1632 in his Dialogue Concerning the Two Chief World Systems, using the metaphor of Galileo's ship.Newtonian mechanics added to the special principle several other concepts, including laws of motion, gravitation, and an assertion of an absolute time. When formulated in the context of these laws, the special principle of relativity states that the laws of mechanics are invariant under a Galilean transformation.

### In special relativity

Joseph Larmor and Hendrik Lorentz discovered that Maxwell's equations, the cornerstone of electromagnetism, were invariant only by a certain change of time and length units. This left some confusion among physicists, many of whom thought that a luminiferous aether was incompatible with the relativity principle, in the way it was defined by Henri PoincarÃ©:{{Quotation|The principle of relativity, according to which the laws of physical phenomena should be the same, whether for an observer fixed, or for an observer carried along in a uniform movement of translation; so that we have not and could not have any means of discerning whether or not we are carried along in such a motion.|Henri PoincarÃ©, 1904BOOK, PoincarÃ©, Henri, 1904â€“1906, s:The Principles of Mathematical Physics, The Principles of Mathematical Physics]], Congress of arts and science, universal exposition, St. Louis, 1904, 1, 604â€“622, Houghton, Mifflin and Company, Boston and New York, }}In their 1905 papers on electrodynamics, Henri PoincarÃ© and Albert Einstein explained that with the Lorentz transformations the relativity principle holds perfectly. Einstein elevated the (special) principle of relativity to a postulate of the theory and derived the Lorentz transformations from this principle combined with the principle of the independence of the speed of light (in vacuum) from the motion of the source. These two principles were reconciled with each other (in Einstein's treatment, though not in PoincarÃ©'s) by a re-examination of the fundamental meanings of space and time intervals.The strength of special relativity lies in its derivation from simple, basic principles, including the invariance of the laws of physics under a shift of inertial reference frames and the invariance of the speed of light in a vacuum. (See also: Lorentz covariance.)It is, in fact, possible to derive the Lorentz transformations from the principle of relativity alone and obtain the constancy of the speed of light as a consequence. Using only the isotropy of space and the symmetry implied by the principle of special relativity, one can show that the space-time transformations between inertial frames are either Galilean or Lorentzian. In the Lorentzian case, one can then obtain relativistic interval conservation and the constancy of the speed of light.Yaakov Friedman, Physical Applications of Homogeneous Balls, Progress in Mathematical Physics 40 BirkhÃ¤user, Boston, 2004, pages 1-21.

## General principle of relativity

The general principle of relativity states:BOOK, The Theory of Relativity, C. MÃ¸ller, Oxford University Press, 2nd, Delhi, 0-19-560539-X,weblink 220, 1952, {{Quotation|All systems of reference are equivalent with respect to the formulation of the fundamental laws of physics.|C. MÃ¸ller The Theory of Relativity, p. 220}}That is, physical laws are the same in all reference framesâ€”inertial or non-inertial. An accelerated charged particle might emit synchrotron radiation, though a particle at rest doesn't. If we consider now the same accelerated charged particle in its non-inertial rest frame, it emits radiation at rest.Physics in non-inertial reference frames was historically treated by a coordinate transformation, first, to an inertial reference frame, performing the necessary calculations therein, and using another to return to the non-inertial reference frame. In most such situations, the same laws of physics can be used if certain predictable fictitious forces are added into consideration; an example is a uniformly rotating reference frame, which can be treated as an inertial reference frame if one adds a fictitious centrifugal force and Coriolis force into consideration.The problems involved are not always so trivial. Special relativity predicts that an observer in an inertial reference frame doesn't see objects he would describe as moving faster than the speed of light. However, in the non-inertial reference frame of Earth, treating a spot on the Earth as a fixed point, the stars are observed to move in the sky, circling once about the Earth per day. Since the stars are light years away, this observation means that, in the non-inertial reference frame of the Earth, anybody who looks at the stars is seeing objects which appear, to them, to be moving faster than the speed of light.Since non-inertial reference frames do not abide by the special principle of relativity, such situations are not self-contradictory.

### General relativity

General relativity was developed by Einstein in the years 1907 - 1915. General relativity postulates that the global Lorentz covariance of special relativity becomes a local Lorentz covariance in the presence of matter. The presence of matter "curves" spacetime, and this curvature affects the path of free particles (and even the path of light). General relativity uses the mathematics of differential geometry and tensors in order to describe gravitation as an effect of the geometry of spacetime. Einstein based this new theory on the general principle of relativity, and he named the theory after the underlying principle.

## Notes and references

See the special relativity references and the general relativity references.

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