relativity

listen to the pronunciation of relativity
İngilizce - Türkçe
{i} görecelik

Hiç dilsel görecelik kavramını duydun mu? - Have you ever heard of the concept of linguistic relativity?

Görecelik teorisini az sayıda bilimci anlıyor. - Few scientists understand the theory of relativity.

{i} izafiyet

İzafiyet teorisini kim icat etti? - Who invented the theory of relativity?

1905 yılında Einstein şimdi özel izafiyet teorisi olarak bilinen bir rapor yazdı. - In 1905 Einstein wrote a paper on what is now known as the special theory of relativity.

ilişkinlik
görelilik

Albert Einstein'ın Görelilik Teorisi dünyadaki en ünlü formüldür. - Albert Einstein's theory of relativity is the most famous formula in the world.

1917 yılında, Albert Einstein Genel Görelilik Teorisine dayalı evrenin bir açıklamasını önerdi. - In 1917, Albert Einstein proposed a description of the universe based on his Theory of General Relativity.

görelik
görecilik
nispilik
bağıntıcılık
mensubiyet
{i} bağıntılık
theory of relativity Einstein tarafından bulunan izafet teorisi
relativizm
{i} görelilik, izafiyet, bağıllık, rölativite
izafet
rölativite
relativity theory
izafiyet teorisi
relativity theory
(Nükleer Bilimler) izafiyet kuramı
by the theory of relativity
izafiyet kuramıyla
theory of relativity
izafiyet teorisi
theory of relativity
görecelik kuramı
by the theory of relativity
izafiyet kuramiyla
the theory of relativity
görelilik kuramı, izafiyet teorisi
theory of relativity
görecelilik kuramı
İngilizce - İngilizce
The principle that the laws of physics should be the same for all observers
Either of two theories (special relativity or general relativity) developed by German-American physicist Albert Einstein. Also called Einsteinian relativity
The state of being relative to something else
The state of being relative; as, the relativity of a subject
A theory formulated by Einstein that describes the relations between measurements of physical phenomena by two different observers who are in relative motion at constant velocity (the special theory of relativity) or that describes how a gravitational field can be replaced by a curvature of space-time (the general theory of relativity)
The theory of relativity is Einstein's theory concerning space, time, and motion. the relationship in physics between time, space, and movement according to Einstein's theory. Concept in physics that measurements change when considered by observers in various states of motion. In classical physics, it was assumed that all observers anywhere in the universe would obtain identical measurements of space and time intervals. According to relativity theory, this is not so; all measurements depend on the relative motions of the observer and the observed. There are two distinct theories of relativity, both proposed by Albert Einstein. The special theory of relativity (1905) developed from Einstein's acceptance that the speed of light is the same in all reference frames, irrespective of their relative motion. It deals with non-accelerating reference frames, and is concerned primarily with electric and magnetic phenomena and their propagation in space and time. The general theory (1916) was developed primarily to deal with gravitation and involves accelerating reference frames. Both theories are major milestones in the history of modern physics. See also equivalence principle, space-time
Theory of
the special theory of relativity is a modern physical theory due to Einstein, giving an account in which neither space nor time has an independent absolute value or existence but is each relative to the other Thus the classical view of space and time is replaced with one in which the two are aspects of the same underlying reality: Space-time The general theory of relativity extended the special (from considering frameworks in uniform relative motion to considering frameworks in arbitrary relative motion to one another) and is the currently accepted basis for our theory of gravitation
{i} (Physics) theory of relativity as developed by Albert Einstein, theory that time and space are relative concepts and that motion must be defined in relation to a point of reference
principle that postulates the equivalence of the description of the Universe, in terms of physical laws, by observers in their respective frames of reference, whether in uniform or nonuniform motion relative to each other
A principle that postulates the equivalence of the description of the universe, in terms of physical laws, by various observers, or for various frames of reference See relativistic mass equation, mass-energy equivalence
"the theory of the relative rather than absolute character of motion and mass, and the interdependence of matter, time, and space, as developed by physicist Albert Einstein "
(physics) the theory that space and time are relative concepts rather than absolute concepts
the principle (due to Galileo) that the laws of physics should be the same for all observers in uniform motion
Einstein's general theory of relativity was his theory of gravitational force His special theory of relativity was his theory of the electrodynamics of moving systems
either of the two principles of special relativity or general relativity (Albert Einstein)
A theory to the structure of space and time, and its relation to gravity and motion This theory was first introduced by Albert Einstein in 1905
In physics, the problem of how physical laws and measurements change when considered by observers in various states of motion So you see, relativity is concerned with measurements made by different observers moving relative to one another Also, simply the state of depending for existence on, or having nature, value, or quality in relation to something else (For example, you are a child relative to your parents and a student relative to your teachers etc )
general relativity
A theory extending special relativity and uniformly accounting for gravity and accelerated frames of reference, postulating that space-time curves in the presence of mass
principle of relativity
The principle that only the motion of objects relative to one another can be measured, and that there is no absolute frame of reference
special relativity
A theory that (neglecting the effects of gravity) reconciles the principle of relativity with the observation that the speed of light is constant in all frames of reference
theory of relativity
The generic term of the special relativity and the general relativity, two theories in physics developed mainly by Albert Einstein at the beginning of the 20th century from which several important results such as the equivalence of matter and energy and the Einstein field equations are derived
general relativity
The geometric theory of gravitation developed by Albert Einstein, incorporating and extending the theory of special relativity to accelerated frames of reference and introducing the principle that gravitational and inertial forces are equivalent
general relativity
a generalization of special relativity to include gravity (based on the principle of equivalence)
general theory of relativity
general relativity, theory of gravitation and acceleration
principle of relativity
(physics) a universal law that states that the laws of mechanics are not affected by a uniform rectilinear motion of the system of coordinates to which they are referred
special relativity
The specific set of rules relating observations from one frame of reference to the observations of the same phenomenon in another frame of reference It states that the speed of light is the same for all observers It also equates matter and energy through the equation E = mc2
special relativity
Einstein’s theory based on the idea that the laws of science should be the same for all observers, no matter how they are moving, in the absence of gravitational phenomena
special relativity
kinematic theory that explains the relations between light and matter (see relativity)
special relativity
a theory invented by Albert Einstein to describe measurements of length and time for objects moving at constant velocity Although it applies to all motion at constant velocity, it must be used instead of Newton's laws of motion at speeds of greater than about ten percent the speed of light
special relativity
The physical theory of space and time developed by Albert Einstein, based on the postulates that all the laws of physics are equally valid in all frames of reference moving at a uniform velocity and that the speed of light from a uniformly moving source is always the same, regardless of how fast or slow the source or its observer is moving. The theory has as consequences the relativistic mass increase of rapidly moving objects, the Lorentz-Fitzgerald contraction, time dilatation, and the principle of mass-energy equivalence. Also called special theory of relativity
special relativity
The theory that the laws of nature are the same for all observers in unaccelerated motion and the speed of light is independent of the motion of its source Einstein postulated that the time interval between two events was longer for an observer in whose frame of reference the events occur in different places than for the observer for whom they occur at the same place
special relativity
a physical theory of relativity based on the assumption that the speed of light in a vacuum is a constant and the assumption that the laws of physics are invariant in all inertial systems
special relativity
part of Einstein's theory relating to observers moving uniformly with respect to each other
theory of relativity
method pertaining to science and specifically physics, Einstein's theory
relativity

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