General Relativity in a sentence

(1) Einstein developed the theory of general relativity.

(2) Quasars are often used as a test of general relativity.

(3) General relativity is a theory proposed by Albert Einstein.

(4) General relativity allows for the existence of black holes.

(5) The theory of general relativity explains how gravity works.

(6) The graviton is predicted by the theory of general relativity.

(7) The theory of general relativity explains the force of gravity.

(8) The physicist sought to axiomatize the laws of general relativity.

(9) General relativity explains the precession of the orbit of Mercury.

(10) The laws of general relativity are invariant under diffeomorphisms.

General Relativity sentence

(11) The theory of general relativity is a cornerstone of modern physics.

(12) General relativity predicts the existence of gravitational redshift.

(13) The covariant tensor is a fundamental concept in general relativity.

(14) Asymptotic flatness is a property of spacetime in general relativity.

(15) The principles of general relativity explain the behavior of gravity.

(16) The theory of general relativity describes the behavior of spacetimes.

(17) The theory of general relativity is based on the concept of spacetime.

(18) The theory of general relativity predicts the existence of black holes.

(19) The equations of general relativity are notoriously difficult to solve.

(20) The study of geodesics is essential in the field of general relativity.

General Relativity make sentence

(21) The equations of general relativity are complex and difficult to solve.

(22) General relativity predicts the bending of light around massive objects.

(23) The equations of general relativity describe the curvature of spacetime.

(24) The concept of spacetime is central to the theory of general relativity.

(25) Gravitation can be explained by Einstein's theory of general relativity.

(26) General relativity has been used to study the evolution of the universe.

(27) General relativity predicts the existence of gravitational time dilation.

(28) General relativity predicts the existence of dark matter and dark energy.

(29) The scientist's theory conjoins quantum mechanics and general relativity.

(30) Gravitations can be described by Einstein's theory of general relativity.

Sentence of general relativity

(31) The theory of general relativity has implications for the nature of time.

(32) The pulsar's emissions can be used to test theories of general relativity.

(33) Superstring theory aims to unify quantum mechanics and general relativity.

(34) The study of wormholes requires a deep understanding of general relativity.

(35) General relativity allows for the possibility of wormholes and time travel.

(36) General relativity provides a unified description of gravity and spacetime.

(37) The Hamiltonian constraint is a fundamental equation in general relativity.

(38) The Galilean moons have been used to test the theory of general relativity.

(39) The Einsteinian theory of general relativity predicts the bending of light.

(40) Einstein's theory of general relativity describes the curvature of spacetime.

General Relativity meaningful sentence

(41) The theory of general relativity has implications for the study of cosmology.

(42) The mathematical formalism of general relativity is based on tensor calculus.

(43) String theory attempts to reconcile quantum mechanics and general relativity.

(44) General relativity has been used to study the behavior of stars and galaxies.

(45) The concept of general relativity revolutionized our understanding of gravity.

(46) The theory of general relativity describes how gravity works on a large scale.

(47) Lorentz's work laid the foundation for Einstein's theory of general relativity.

(48) The cosmological constant is a term in Einstein's theory of general relativity.

(49) General relativity has been confirmed by numerous experiments and observations.

(50) The concept of spacetime curvature is a key aspect of general relativity theory.

General Relativity sentence examples

(51) M-theory incorporates elements of both general relativity and quantum mechanics.

(52) The principles of general relativity have been used to develop new technologies.

(53) General relativity explains the phenomenon of time dilation near massive objects.

(54) The equations of general relativity are nonlinear and difficult to solve exactly.

(55) The principle of relativity is a cornerstone of the theory of general relativity.

(56) The principles of general relativity have been applied to the study of cosmology.

(57) The theory of general relativity has revolutionized our understanding of gravity.

(58) The graviton is a particle that is predicted by the theory of general relativity.

(59) The theory of gravity is a cornerstone of Einstein's theory of general relativity.

(60) The detection of a gravity wave confirmed Einstein's theory of general relativity.

Sentence with general relativity

(61) The Kerr metric is a solution to Einstein's field equations in general relativity.

(62) The concept of gravitational lensing is a direct consequence of general relativity.

(63) The theory of general relativity explains gravitation in terms of curved spacetime.

(64) General relativity is a theory of gravitation that was developed by Albert Einstein.

(65) The theory of general relativity has implications for the structure of the universe.

(66) General relativity explains the phenomenon of frame dragging around rotating objects.

(67) The theory of general relativity describes the behavior of gravity on a cosmic scale.

(68) The theory of general relativity deals with the effects of gravity on space and time.

(69) Scientists use general relativity to explain the behavior of massive objects in space.

(70) The Schwarzschild black hole is the simplest type of black hole in general relativity.

Use general relativity in a sentence

(71) The theory of gravitation is a cornerstone of Einstein's theory of general relativity.

(72) The laws of general relativity are invariant under general coordinate transformations.

(73) The existence of black holes was predicted by Einstein's theory of general relativity.

(74) General relativity has been used to study the behavior of matter in extreme conditions.

(75) Penrose diagrams are used to represent the geometry of spacetime in general relativity.

(76) The einsteinian theory of general relativity has been confirmed by numerous experiments.

(77) Variational principles are used to derive the equations of motion in general relativity.

(78) General relativity provides a framework for understanding the expansion of the universe.

(79) The theory of general relativity is consistent with the principles of quantum mechanics.

(80) The principle of relativity is a cornerstone of Einstein's theory of general relativity.

Sentence using general relativity

(81) The discovery of the first black hole confirmed Einstein's theory of general relativity.

(82) The theory of general relativity has been used to explain phenomena such as black holes.

(83) The theory of general relativity is consistent with the principles of special relativity.

(84) LIGO's detection of gravitational waves confirms Einstein's theory of general relativity.

(85) General relativity has important implications for our understanding of the early universe.

(86) The theory of general relativity explains how gravity affects the curvature of space-time.

(87) The theory of general relativity explains how gravity affects the shape of space and time.

(88) Geodesics play a crucial role in understanding the behavior of light in general relativity.

(89) The periastron shift of a pulsar can be used to test the predictions of general relativity.

(90) The gravitational constant plays a crucial role in Einstein's theory of general relativity.

General Relativity example sentence

(91) Superstring theory has the potential to reconcile quantum mechanics and general relativity.

(92) The Einsteinian theory of general relativity predicts the existence of gravitational waves.

(93) The existence of blackholes was first predicted by Einstein's theory of general relativity.

(94) The principles of general relativity have been used to explain the behavior of black holes.

(95) The existence of blackholes was predicted by Albert Einstein's theory of general relativity.

(96) The study of ylem requires a deep understanding of quantum mechanics and general relativity.

(97) The existence of black-holes was first predicted by Einstein's theory of general relativity.

(98) The theory of general relativity has been confirmed by numerous experiments and observations.

(99) The Schwarzschild solution is a solution to Einstein's field equations in general relativity.

(100) The detection of gravitons would provide strong support for the theory of general relativity.

Sentence with word general relativity

(101) The experimental results obtained from the study contradict the theory of general relativity.

(102) The albe physicist formulated a theory that unified quantum mechanics and general relativity.

(103) The Schwarzschild solution is a solution to Einstein's field equations of general relativity.

(104) The principles of general relativity have been used to develop new technologies, such as GPS.

(105) The theory of general relativity has been used to explain the behavior of stars and galaxies.

(106) The existence of black holes was predicted by Albert Einstein's theory of general relativity.

(107) The theory of general relativity has been used to explain the behavior of gravitational waves.

(108) The theory of general relativity explains how gravity affects the curvature of space and time.

(109) General relativity has important implications for our understanding of the universe as a whole.

(110) The principles of general relativity have been used to develop new theories of quantum gravity.

Sentence of general relativity

(111) General relativity has been tested extensively, and it has passed every experimental challenge.

(112) The equations of general relativity are complex and require advanced mathematical understanding.

(113) The covariant formulation of quantum mechanics is based on the principles of general relativity.

(114) The concept of singularities is a fundamental aspect of Einstein's theory of general relativity.

(115) The conversion of mass energy into gravitational energy is a key principle in general relativity.

(116) The theory of general relativity has been tested and confirmed in various astrophysical contexts.

(117) General relativity predicts that time slows down in the presence of a strong gravitational field.

(118) General relativity is a key component of our current understanding of the nature of the universe.

(119) The Lagrangian approach is widely used in fields such as quantum mechanics and general relativity.

(120) The predictions of general relativity have been verified by the observation of gravitational waves.

General Relativity used in a sentence

(121) Penrose diagrams are used in general relativity to represent the spacetime geometry of black holes.

(122) The existence of gravitons would provide a bridge between quantum mechanics and general relativity.

(123) The theory of general relativity describes how spacetimes curve in the presence of mass and energy.

(124) The discovery of gravitons would provide a bridge between quantum mechanics and general relativity.

(125) The principles of general relativity have been used to explain the behavior of gravitational waves.

(126) The existence of black holes was first predicted by Albert Einstein's theory of general relativity.

(127) The Schwarzschild solution is an exact solution to Einstein's field equations in general relativity.

(128) General relativity is a key component of our current understanding of the structure of the universe.

(129) General relativity has important implications for our understanding of the nature of space and time.

(130) General relativity explains the force of gravity, but it also predicts the existence of black holes.

General Relativity sentence in English

(131) General relativity is based on the principle that the laws of physics are the same for all observers.

(132) Despite its complexity, general relativity can be explained in simple terms as the theory of gravity.

(133) The principles of general relativity apply to all objects in the universe, not just planets and stars.

(134) The theory of general relativity has been used to explain the bending of light around massive objects.

(135) The principles of general relativity have been used to develop new models of the universe's evolution.

(136) General relativity provides a framework for understanding the behavior of the universe on large scales.

(137) The mathematics of superstrings is based on the principles of general relativity and quantum mechanics.

(138) The theoretical account of gravity was revolutionized by Albert Einstein's theory of general relativity.

(139) The scientific theory of general relativity explains the force of gravity as the curvature of spacetime.

(140) The covariant formulation of general relativity provides a unified description of gravity and spacetime.

(141) Non-Euclidean geometries have implications for the study of general relativity and the nature of gravity.

(142) The study of isomorphism is relevant in quantum mechanics, and it is also important in general relativity.

(143) The theory of general relativity provides a more accurate description of gravitations in extreme conditions.

(144) The discovery of the theory of general relativity was a pivotal development in our understanding of gravity.

(145) The periastron of a pulsar orbiting a black hole can be used to test Einstein's theory of general relativity.

(146) The theory of general relativity has been used to explain the behavior of the universe on the largest scales.

(147) Einstein developed the theory of general relativity, and it revolutionized our understanding of the universe.

(148) The covariant formulation of general relativity predicts the existence of black holes and gravitational waves.

(149) Superstrings are thought to be the key to unlocking the mysteries of quantum mechanics and general relativity.

(150) The equations of general relativity are complex, yet they accurately describe the behavior of massive objects.

(151) The discovery of gravitational waves in 2015 provided further evidence for the validity of general relativity.

(152) While general relativity is a well-established theory, it is still subject to ongoing research and refinement.

(153) The graviton is a key ingredient in theories attempting to reconcile general relativity with quantum mechanics.

(154) Penrose's theory of quantum gravity proposes a new way of reconciling general relativity and quantum mechanics.

(155) Einstein's theory of gravitation, known as general relativity, describes gravity as the curvature of spacetime.

(156) The theoretical principle of general relativity describes the curvature of spacetime caused by mass and energy.

(157) In general relativity, the concept of a reference frame becomes more complex due to the curvature of spacetime.

(158) The periastron shift is a phenomenon observed in the orbit of Mercury due to the influence of general relativity.

(159) Noncommutative quantum gravity is a theoretical framework that combines quantum mechanics and general relativity.

(160) Oppenheimer's work on the theory of general relativity has been instrumental in our understanding of the universe.

(161) The astrophysically significant discovery of gravitational waves confirmed Einstein's theory of general relativity.

(162) Although general relativity is a complex theory, it has been proven to accurately describe the behavior of gravity.

(163) The theory of general relativity predicts that time dilation occurs in the presence of strong gravitational fields.

(164) M-theory has the potential to reconcile the seemingly incompatible theories of general relativity and quantum mechanics.

(165) General relativity is a complex theory that requires a strong background in mathematics and physics to fully understand.

(166) The theory of general relativity has been used to explain the behavior of black holes and the expansion of the universe.

(167) The theory of general relativity predicts that the path of light is bent in the presence of strong gravitational fields.

(168) General relativity has been used to explain the bending of light around massive objects, such as galaxies and black holes.

(169) General relativity predicts that time slows down in strong gravitational fields, and this has been confirmed by experiments.

(170) The equations of general relativity are difficult to solve, but they have led to many important discoveries in astrophysics.

(171) General relativity predicts that the universe is expanding, and this has been confirmed by observations of distant galaxies.

(172) Although astrophysically challenging, the study of gravitational waves has confirmed Einstein's theory of general relativity.

(173) M-theory provides a potential framework for reconciling the inconsistencies between general relativity and quantum mechanics.

(174) Scientists are working tirelessly to break into gravitons and bridge the gap between quantum mechanics and general relativity.

(175) Scientists have used general relativity to study the behavior of galaxies, and they have discovered many fascinating phenomena.

(176) The concept of spacetime curvature, which is a fundamental aspect of general relativity, was first introduced by Albert Einstein.

(177) Although general relativity is a classical theory, it has implications for the behavior of matter and energy at the quantum level.

(178) The concept of gravitational lensing, which is a prediction of general relativity, has been observed in astronomical observations.

(179) The theory of general relativity is based on the idea that space and time are intertwined, and they form a four-dimensional fabric.

(180) Despite its success in explaining the behavior of gravity, general relativity does not account for the effects of quantum mechanics.

(181) Geodesics can be used to model the behavior of light in a gravitational field, as predicted by Einstein's theory of general relativity.

(182) The principles of general relativity have been applied to the study of the early universe, and they have helped us understand how it evolved.

(183) The theory of general relativity has been used to explain the behavior of gravitational waves, which were detected for the first time in 2015.

(184) While general relativity is widely accepted in the scientific community, there are still some unanswered questions about its application in extreme conditions.

(185) Einstein's theory of general relativity is one of the most important scientific achievements of the 20th century, and it continues to inspire new research today.

(186) While general relativity is a well-established theory, it is still subject to ongoing research and refinement, particularly in the areas of dark matter and dark energy.

(187) The theory of general relativity has been used to explain the behavior of the universe on a large scale, from the formation of galaxies to the cosmic microwave background radiation.

(188) The equations of general relativity are notoriously difficult to solve, but they have led to many important predictions, such as the existence of black holes and gravitational waves.

(189) The study of general relativity has led to many technological advances, such as the development of GPS, which relies on the theory to correct for the effects of time dilation on satellite signals.

(190) Although general relativity is a highly successful theory, it has some limitations, such as its inability to explain the behavior of matter at the smallest scales, where quantum mechanics is needed.

(191) Although general relativity is a highly complex theory, it has been confirmed by numerous experiments and observations, and it remains one of the most important scientific discoveries of the 20th century.

(192) The discovery of gravitational lensing, which is a phenomenon predicted by general relativity, has allowed astronomers to observe distant galaxies and study the structure of the universe on a large scale.

(193) While general relativity is a classical theory, it is incompatible with quantum mechanics, and physicists are still searching for a unified theory that can explain both gravity and the other fundamental forces of nature.

(194) Despite being best known for his work in the field of physics, Albert Einstein also made significant contributions to the development of the theory of general relativity, which revolutionized our understanding of gravity.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word General Relativity. They do not represent the opinions of TranslateEN.com.