Sentences with phrase «predicted by general relativity»
It must be that «Star positions will change by an amount as predicted by General Relativity.»
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LIGO was able to see all three phases of the collision — inward spiral, merger, and ringing as the merged object settled down — happen in the just the way predicted by General Relativity.
The top two plots show data received at each detector, along with waveforms predicted by general relativity.
The expanding universe predicted by general relativity has become firmly entrenched in modern science.
The ripples in spacetime predicted by general relativity remain one of the most sought - after prizes in physics, and new research narrows estimates of their prevalence
Our measured relativistic spin precession rate of per year (68 % confidence level) is consistent with that predicted by general relativity within an uncertainty of 13 %.
One of the most important scientific consequences of detecting a black - hole merger would be confirmation that black holes really do exist — at least as the perfectly round objects made of pure, empty, warped space - time that are predicted by general relativity.
Not exact matches
Using ultraprecise atomic clocks, scientists proved that for every one foot higher you move above the Earth's surface, time speeds up by a factor of 0.00000000000000004 due to the slight decrease in the force of gravity — just as general relativity would predict.
It was not until the detection of quasars, which allow astronomers to see the light emitted by matter falling into black holes, that we had evidence that they were real objects and not just mathematical curiosities predicted by Einstein's general theory of relativity.
In preparation for this search, physicists honed their general relativity skills on simulations of the spacetime storm kicked up by black holes, predicting what LIGO might see and building up the computational machinery to solve the equations of general relativity.
Those waves, predicted by Einstein's general theory of relativity, stretched and compressed spacetime, traveling outward like ripples on a pond.
Gravitational waves are predicted by Einstein's general theory of relativity but have so far never been detected.
These characteristics would explain the extreme time dilation on the world where the film's intrepid planet hunters landed: In one hour there, seven elapsed on Earth, a phenomenon predicted by Einstein's general theory of relativity.
However, Einstein's 1915 theory of general relativity predicted that such deflection could in fact occur — a prediction subsequently borne out by experiment.
Gravitational waves were first predicted 100 years ago by Albert Einstein as part of his Theory of General Relativity.
Their paths shift slightly from one orbit to the next — a phenomenon known as precession — but when astronomers use general relativity to predict the amount of this shift, their answers are off by a factor of four.
The speed and pace of those measurements promise to add an increment of precision to GPS navigation, and ROMY may even be able to detect a subtle effect predicted by Albert Einstein's theory of general relativity: the drag of the rotating planet on nearby spacetime, like a spoon turned in a pot of honey.
Minute tremors in space itself, predicted by Einstein's general theory of relativity, are generated when massive objects accelerate.
Gravitational waves, the undulations produced in space - time when massive objects move, had long been predicted by Einstein's theory of general relativity.
With only one tight pair known, he says, it was difficult to assess how common even tighter black hole pairs are, which are crucial in the hunt for gravitational waves — a subtle type of radiation predicted by Einstein's general theory of relativity.
Gravitational waves, which have never been detected directly, were predicted by Albert Einstein in 1916 on the basis of his theory of general relativity, although he thought they were too weak to be observed, says Einstein@Home Director Bruce Allen, a physicist at Max Planck and U.W. — Milwaukee.
Wormholes, tunnels through the fabric of spacetime that connect widely separated locations, are predicted by Einstein's general theory of relativity.
First predicted by Einstein more than a century ago as a consequence of his theory of general relativity, gravitational waves were long thought to be beyond observational reach — if not entirely nonexistent.
This effect, which is predicted by the theory of general relativity, has been detected in the light from stars, and observed in experiments on Earth.
First, it would tell us that gravitational waves, predicted by Einstein's century - old theory of general relativity, really do exist.
An international team of astronomers has found the most distant gravitational lens yet — a galaxy that, as predicted by Albert Einstein's general theory of relativity, deflects and intensifies the light of an even more distant object.
Predicted by Einstein's general theory of relativity, wormholes are tunnels connecting two points in space - time.
Black holes, which were predicted by Einstein's theory of general relativity, have an event horizon — a boundary beyond which nothing, even light, can return to the outside world.
As general relativity predicts, light from the background star bent around the white dwarf, distorted by its gravitational field.
The waves are predicted by Einstein's general theory of relativity.
To complicate matters, the theory of special relativity, which preceded general relativity by a decade, predicts a similar effect for clocks in motion — a stationary clock will tick faster than a moving clock.
During the 1990s, astronomers had begun to suspect that the QPOs were associated with a gravitational effect predicted by Einstein's general relativity: that a spinning object will create a kind of gravitational vortex.
Nearly 50 years ago, Rainer Weiss dreamed up a way to detect gravitational waves — infinitesimal ripples in spacetime predicted by Einstein's theory of gravity, general relativity.
Such models also suffer from being nonrelativistic — they can not describe the bending of light by gravity, an effect predicted so well by a relativistic theory of gravity such as Einstein's general theory of relativity.
Gravitational waves — ripples in the fabric of space and time produced by dramatic events in the universe, such as merging black holes, and predicted as a consequence of Albert Einstein's 1915 general theory of relativity — carry information about their origins and about the nature of gravity that can not otherwise be obtained.
Caption: Light rays from a distant galaxy are deflected due to the gravity of a massive, foreground galaxy, as predicted by Einstein's theory of general relativity.
The Laser Interferometer Gravitational - Wave Observatory (LIGO) is designed to open the field of gravitational - wave astrophysics through the direct detection of gravitational waves predicted by Einstein's general theory of relativity.
Microlensing relies upon measurements of the gravitational bending of light (predicted by Albert Einstein's general theory of relativity) from a more distant source by an intervening star and its planets.
Gravitational waves were predicted by Albert Einstein in 1915 as part of his theory of general relativity, but it wasn't until last year that it was confirmed we had directly detected these waves.
Researchers with the Laser Interferometer Gravitational - Wave Observatory (LIGO) announced today (Feb. 11) that they had made history's first direct detection of gravitational waves, enigmatic ripples in space - time whose existence was first predicted 100 years ago by Albert Einstein's famous theory of general relativity.
One can prove Einstein's theory of general relativity by observing the actual transit of Mercury and how it differs from that predicted solely by Newton's Laws.
Via Wikipedia: The bending of light by a gravitational body was predicted by Albert Einstein in 1912, a few years before the publication of general relativity in 1916 (Renn et al. 1997).